JAERI-Data/Code—94-003 JAERI-Data Code JP95OA136 94-003 ... · jaeri-data code 94-003...

77
JAERI-Data Code 94-003 JAERI-Data/Code—94-003 JP95OA136 ATTENUATION DATA OF POINT ISOTROPIC NEUTRON SOURCES UP TO 400MeV IN WATER, ORDINARY CONCRETE AND IRON August 1894 Hiroshi KOTEGAWA, Shun ichi TANAKA, Yukio SAKAMOTO Yoshihiro NAKANE and Hiroshi NAKASHIMA Japan Atomic Energy Research Institute

Transcript of JAERI-Data/Code—94-003 JAERI-Data Code JP95OA136 94-003 ... · jaeri-data code 94-003...

JAERI-Data Code 94-003

JAERI-Data/Code—94-003

JP95OA136

ATTENUATION DATA OF POINT ISOTROPIC NEUTRON SOURCES UP TO 400MeV IN WATER,

ORDINARY CONCRETE AND IRON

August 1 8 9 4

Hiroshi KOTEGAWA, Shun ichi TANAKA, Yukio SAKAMOTO Yoshihiro NAKANE and Hiroshi NAKASHIMA

Japan Atomic Energy Research Institute

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This report is issued irregularly.

Inquiries aboul availability of the reports should be addressed to Information Division.

Department of Technical Information. Japan Atomic Energy Research Institute. Tokai-

mura. Naka-gun. Ibaraki-ken .1I9-II. Japan.

©Japan Atomic Knorfiy Riwaivli Institute. litiH

H * « f

JAERI-Data/Code 9U-003

Attenuation Data of point Isotropic Neutron Sources

up to UOOMeV in Water, Ordinary Concrete and Iron

Hiroshi KOTEGAWA, Shun-ichi TANAKA, Yukio SAKAMOTO

Yoshihiro NAKANE and Hiroshi NAKASHIMA

Department of Reactor Engineering

Tokai Research Establishment

Japan Atomic Energy Research Institute

Tokai-mura, Naka-gun, Ibaraki-ken

(Received May 31, 1994)

A comprehensive attenuation data of dose equivalent for point isotropic

monoenergetic neutron sources up to 400MeV in infinite shields of water,

ordinary concrete and iron has been calculated using the ANISN-JR code and a

neutron-photon multigroup •acroscopic cross section HILO86R. The attenuation

factors were fitted to a 4th order polynomial exponent formula, Baking possible

to use easily for point kernel codes. Additional data in finite shielding

geometry was also calculated to correct the effect due to infinite medium,

giving the maximum correction of 0.23 in the region for more 400 cm distance

from neutron source of 400 MeV in iron shield.

Effective attenuation length for monoenergetic neutrons have been studied

in detail. Subsequently, it was shown that the attenuation length was strongly

dependent upon the penetration length and the Moyer's foriula using a single

attenuation length brought large error into the dose estimation behind thick

shields for the intermediate energy neutrons up to 400 MeV. Furthermore, it

was demonstrated that there was difference lore than 50 % in the attenuation

length of iron between the calculations with HIL086R and HIL086 because of the

self-shielding effect.

Keywords : Attenuation Data, High Energy Neutron Source, Secondary Gamia-Rays,

Point Isotropic Source, Dose Equivalent, Water, Concrete, Iron,

HILO86R, HIL086, Attenuation Length

JAERI-Data/Code 94-003

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水.コンクリート.鉄中での400MeVまでの

点等方中性子線源からの減衰データ

日本原子力研究所東海研究所原子炉工学部

小手川洋・田中俊一・坂本幸夫・中恨佳弘・中島 宏

(1994年5月31日受理)

ANISNコードと中性子-r線多群巨視的断面積HIL086Rを使「て. 400NeVまでの点

等方単色エネルギー中性子を線源とする無限厚さの水,普通コンクリート.鉄の各単層遮蔽体に

対する中性子と 2次7線の線量当量減蜜係散を計算した。点滅蜜筏簡易計算コードPKN-Hで

利用するため. 4次の多項式を含む指数関数で近似した。無限媒質による反射の効果を補正する

ための補足的データも評価した。反射の効果は400MeV中性子線源に対し鉄連厳体中 400ω以上で・

最大0.23に途する。

単色中性子に対する実効的減弱距荷量を詳細に検討した。滅弱距荷量は遭遇距荷量に強〈依存し.単

一の減弱距離を用いるモイヤーモデルの式は.少なくとも400MeVまでの中間エネルギー中性子に

対する遮蔽体透過後の線量評価に大きな誤差が生じることを示した。

さらに,自己遮蔽効果を考慮している HIL086Rは自己遮蔽効果を考慮していない

HIL086と比べて.鉄の減弱距荷量は. 5096以上大きくなる。

東海研究所:干319-11 茨減県那珂都東海村白方字白梅 2-4

11

.IAKKI 1 i.n.

Contents

1. Introduction 1

2. Calculational Method 1

2.1 Dose Equivalent Calculation 1

2.2 Neutron Cross Section Data, HILO86R 2

3. Attenuation Factors and Fitting Parameters 3

3.1 Attenuaiton Factors of Dose Bqui"sl?nt 3

3.2 Fitting Formula of Attenuation Factor 3

3.3 Extrapolation of Attenuation Factor U

3.U Infinite Medium Effect 6

4. Discussion of Attenuation Length 7

5. Concluding Remarks 8

Acknowledgements 9

References 9

Appendix 67

i. m A i

2. U-UWffi 1

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3. if*t7^yf<>r-AI7y-J' 3

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3.4 MJB&HS&H 6

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5. £ fft 8

W 8 • 9

#%Xtt 9 ft ft 67

1.¥ 1-:111 ¥1.11‘( .・.i. . ~ 1 ¥ i Ii 1 .. :

Cr)ntents

1. Introduction

2. Calculational Method

2.1 Dose Equi valent Calculation....・H ・…

2.2 Neutr∞Cross Section Data, HlL086R ..……....・H ・-…...・H ・.....・H ・.......・H ・H ・H ・. 2

3. Attenuation Factors and Fitting Parameters …・H ・H ・...・H ・...・H ・H ・H ・.....・H ・.....・H ・. 3

3.1 Attenuaiton Factors of加 田 向ui";,:1"'!1t …....・H ・.......・H ・...・H ・.....・H ・…....・H ・.... 3

3.2 Fitting Formula of Attenuation Factor …・H ・H ・.....・H ・....・H ・...・H ・.....・H ・.....・H ・ 3

3.3 Extrapolation of Attenuation Factor …........……....・H ・.....・H ・...・H ・..…ー……... 4

3.4 Infinite Medi山町fect...・H ・.....・H ・...・H ・H ・H ・H ・H ・H ・H ・……H ・H ・H ・H ・H ・.....・H ・..…・ 6

4. Discussion of Attenuation 凶ngth …・・H ・H ・....・H ・-…....・H ・-…H ・H ・....・H ・.....・H ・H ・H ・. 7

5. Concluding Remarks ・H ・H ・・H ・H ・....・H ・.....・H ・...・H ・....・H ・...・H ・...・H ・....・H ・....・H ・...,..・H ・ 8

Acknowledgements …...・H ・.....・H ・......・H ・…H ・H ・H ・H ・.....・H ・H ・H ・H ・H ・H ・H ・H ・...………...・H ・.. 9

References …...・H ・..…...・H ・.....・H ・....・H ・...・H ・...・H ・H ・H ・......・H ・...・H ・.......・H ・....・H ・...・H ・.. 9

Appendix .........・H ・..…...・H ・......・H ・H ・H ・.....・H ・H ・H ・H ・.....・H ・H ・H ・H ・H ・.....・H ・H ・H ・......・H ・..67

I.導入…...・H ・....

2. 計算方法

2. 1 線量当量計算

目 次

2.2 中性子断面積データ. HIL086R ・H ・H ・..……H ・H ・......・H ・..……H ・H ・......・H ・.. 2

3. 減衰率とフィッティング・パラメータ …...・H ・.....・H ・.....・H ・..…...・H ・.....・H ・..…...・H ・.. 3

3. 1 線量当量の減表率 ……H ・H ・...・H ・H ・H ・.....・H ・..….....・H ・...・H ・.....・H ・-…...・H ・...・H ・.. 3

3.2 減衰率の近似式 ...・H ・..…...・H ・.....・H ・.....・H ・H ・H ・....・H ・...・H ・....・H ・...・H ・..…・H ・H ・.. 3

3.3 減衰率の外揮・H ・H ・H ・H ・.....・H ・.....・H ・..…H ・H ・...……H ・H ・...・H ・.....・H ・.....・H ・..…… 4

3.4 無限媒質効果 H ・H ・......・H ・H ・H ・..…....・H ・....・H ・...・H ・..…H ・H ・...・H ・.....・H ・..…...・H ・. 6

4. 減弱距離の議論・H ・H ・..…...・H ・.......・H ・...・H ・H ・H ・.....・H ・.....・H ・H ・H ・.......・H ・...・H ・....・H ・7

5. 結 論 ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・… 8

謝 辞 ・...・ H ・......・ H ・..・・・・・・・・・・・・・・・・・・・・・・・e・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 9

参考文献 ...・H ・.....・H ・.....・H ・....・H ・H ・..…...・H ・..…...・H ・.....・H ・..…...・H ・.....・H ・.....・H ・H ・H ・... 9

付 録 ...・H ・.....・H ・.....・H ・..・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 67

tII

.IAKKI D a n - Code it! (ii,H

1 . INTRODUCTION

The present authors have calculated the attenuation data11 of neutron

and secondary gamma-ray dose equivalents for neutron sources from 0.01 HeV

up to 14.9 MeV in water, ordinary concrete and iron shields based on the

JSD-100 library,21 and developed a point kernel code PKN3> using the

attenuation data fitted to a 4-th order polynomial exponent formula, since

the feature of the buildup factor was changed anomalously and significantly

with source energy and penetrations, and essentially dependent upon the

group structure of the neutron cross section used.

In this work, the attenuation data for 55 neutron energies above 0.01

MeV up to 400 MeV have been calculated using a high energy neutron group

cross section HIL086R library41. The new attenuation factors were also

fitted to a polynomial exponent formula modified from the previous one to

represent the attenuation in deep penetration. Additional data for finite

medium were calculated to estimate the infinite medium effect, as well.

These data have been stored in a PKN-H6* code, higher energy version of

point kernel code PKN3>, to apply it for shielding calculations from 0.01

MeV to 400 MeV neutrons.

The attenuation length, which is specially important for shielding

calculations of high energy neutrons, has been studied in detail based on

the attenuation data, and discussed together with exsisting calculations

and experiments.

2. CALCULATIONS METHOD

2.1 Dose Equivalent Calculation

If flux densities for neutrons and secondary gamma rays having energy

E at a location r are represented by 4>n(E,r) and 4v(E,r), the dose

equivalents for neutrons and secondary gamma rays are represented,

respectively, as follows:

H»(r) = J [Hn(E)/*n] x *n(E.r) dE . (2.1)

M r ) = J [ME)/4v] x <ME.r) dE , (2.2)

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.JAKKI D.-iif ('exit- 91 (MM

where [Hn(E)/<I>n] and [HT(E)/$r] are the fluence to dose equivalent

conversion factor for neutrons and gamma rays.

In the present work, neutron and secondary gamma-ray spectra were

calculated for 55 groups of neutron sources from 0.01 MeV up to 400 MeV

with ANISN-JR61 and HIL086R in the point isotropic geometry of water,

ordinary concrete and iron infinite shields. Tables 2.1 and 2.2 show the

calculational conditions and the atomic number densities of the materials.

For the [Hn(E)/*n], the lcm dose equivalent conversion factor for the ICRU-

sphere phantom presented in Table 21 of ICRP Pub.-51T> for neutrons

below 20 MeV was used, and the maximum dose equivalent conversion factor

for a semi-infinite slab phantom listed in Table 23 of ICRP Pub.-51 for

neutrons over 20 MeV up to 400 MeV. For the [hV(E)/<Iv], lcm dose

equivalent conversion factor In Table 10 of ICRP Pub.-51 for the ICRU

sphere phantom was used for gamma rays less than 10 MeV, and the maximum

one in Table 14 of ICRP Pub.-51 for a slab phantom for those greater than

10 MeV.

The dose equivalent conversion factors used are summarized in Tables

2.3 and 2.4 for neutrons and gamma rays, respectively.

2.2 Neutron Cross Section Data, HIL086R

The macroscopic effective cross section HIR086R is a revised version

of HILO86 neutron cross section81, of which energy group structures of

neutrons and gamma-rays are given in Tables 2.5 and 2.6. Among them, 37-

neutron groups less than 19.6 MeV and all of gamma-ray groups have been

replaced by the data collapsed from JSSTDL"1 group constants for taking

into account self-shielding factors. The JSSTDL is a group cross section

set of 295-neutron and 104-gamma-ray groups based on JENDL-3 cross section

library.

In the previous work, a group cross section library JSD100"* composed

of 100-neutron and 44-gamma-ray groups has been used to calculate the

attenuation data for neutrons less than 14.9 MeV. In Figs.2.1 to 2.3, the

attenuations for a6aCf neutron source were compared between HILO86R and

JSD100 librares. The energy group structure of HIL086R is more sparse than

that of JSD100, however, the results are in rather good agreement for

every material.

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JAKKI I Mir -Cudr <M (KM

3. ATTENUATION FACTORS AND FITTING PARAMETERS

3.1 Attenuation Factors of Dose Equivalent

Attenuation factors of neutron and secondary gamma-ray dose

equivalents in infinite water, ordinary concrete and iron shields are

represented in Tables 3.1 to 3.6 for monoenergetic neutron sources from

0.01 MeV to 400 HeV. In Figs. 3.1 to 3.6, are shown the examples of the

attenuation of neutron and secondary gamma-ray dose equivalent for 1st

group(400-375 MeV), 5th group(300-275 MeV). 9th group(200-180 MeV), 15th

group(100-90 MeV), 22nd group(50-45 MeV) and 29th group(22.5-19.6 MeV)

neutron sources. These figures suggest that the attenuations, in general,

become smaller with increasing neutron energy and approach an exponential

one in deep penetration.

3.2 Fitting Formula for Attenuation Factor

It is useful and convienent to approximate the attenuation factor

with a function for the point kernel code PKN-H. Thus, the attenuation

data were fitted to a polynomial exponent formula given by the following

equations,

Hj(r) = exp( Fj(r) ) / 4wra , (j= energy index ). (3.1)

where

Fj(r) = 2 m aNraJ x r"

1"1 , (m= 1 to N*l ). (3.2)

a NM j : "i-th coefficient of N-order polynomial for j-th

source energy.

According to the systematic survey in the previous work11, N=4 has

been chosen in this study, as well. The parameter set a^Vi determined by a

least square method are summarized in Tables 3.7 to 3.12.

The reproducibility with the parameters determined was examined for

1st(400-375 MeV), 15th(100-rl0 MeV) and 29th(22.5-19.6 MeV) groups in water,

concrete and iron. As seen in Tables 3.13 to 3.15, the fitting error for

neutrons is very small except for thickness less than 5-10 cm and the

maximum error is almost within 20 % for every source and shield

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.JAKKI Dntc-'Codc M (KM

combination. For secondary gamma-rays, the fitting- error becomes

fairly larger, especially in the region close to source because of steep

increase of secondary gamma-rays, but it doesn't increase monotonously

with penetration depth.

3.3 Extrapolation of Attenuation Factor

The attenuation data, initially, have been calculated up to the

thickness of 14 m for water, 8 m for concrete and 5 m for iron with the

AN1SN-JR code. Whereas, the shields thicker than these thicknesses have

been often employed in high energy accelerators, especially in proton

accelerators. Thus, the feature of the attenuation was examined in deep

penetration concerning the present attenuation data. Figures 3.7 to 3.9

represent two kinds of attenuation length changing with the penetration,

where solid and broken lines show the attenuation length obtained by

fitting the attenuation data to an exponential function devided by 4n ra

and a simple exponential function. In water and concrete, the

attenuation length shown by broken line approaches more quickly to a

constant value, while in iron the solid line converges faster to an

asymptotic value. These results suggest that the extrapolation is better

to be made based on the different fitting formula for water, concrete and

iron, as follows:

Hj(r)~ exp(-r/A o J ) . for water and concrete, (3.3)

Hj(r)~ exp(-r/A oJ)/4ff ra , for iron, (3.4)

where A OJ is the attenuation length for energy group of source neutron j,

determined from the attenuation in deeper penetration, where the

attenuation length becomes almost constant.

Namely, the attenuation length for water and ordinary concrete, and

for iron were calculated by the following relations, respectively.

For water and concrete,

1 / U J = - ln( Hj(ro) / Hj(r») ) / (ro-rj. (3.5)

and for iron,

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JAKK1 - I tote/Code 94 - 003

1 / k OJ = - ln{ ro

a x Hj(ro) / rx2x Hj(rx) ) / (ro-rj, (3.6)

where ro and ri represent two arbitrary distant points from source, where

the dose equivalent attenuates exponentialy.

Subsequently, the extrapolated dose equivalent Hj(r) is given by the

following equations, for water and concrete,

Hj(r) = Hj(reJ) x exp(-(r-rCJ)/A OJ) , (3.7)

and for iron,

Hj(r) = Hj(reJ) x exp(-(r-rCJ)/A OJ) x r C J

2 / r* , (3.8)

where Hj(reJ) denotes the dose equivalent at the penetration length

reJ(conjunction radius), which is calculated by Eq.(3.1) with the parameter

set aNraJ for source neutrons of j-th energy.

In summary of the above descriptions, the equation including the

extrapolation is given by the similar representation as Eq.(3.1). as

follows:

Hj(r) = exp( Gj(r) ) / An r2 , (3.9)

where Gj(r) is given by the followings,

Gj(r) = I m aNroJ x r1""1 x 6 A T ) + ( bj x r * g(r) ) x 6 _(r), (3.10)

e A T ) = { I reJ-r| - (reJ-r)} / 2 x I reJ-r I , (3.11)

6 A T ) = 1 - 0 A T ) , (3.12)

g(r) = ln(4/r ra) , for water and concrete, (3.13)

0 , for iron,

where a Nm J: fitting parameter set(m=l~N)

reJ : conjunction radius

bj : minus of inverse of attenuation length k <>J

(bj = - p / A oJi where p is density).

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• JAKKI I)atr,-('iidc !M OO.'i

In this work, the attenuation lengths for the extrapolation have been

calculated for 10 MeV to 400 MeV neutron sources using the data of 1000 to

1300 cm for water, 600 to 700 cm for concrete, and 350 to 450 cm for iron,

of which the data aren't affected from the outer boundary. In Tables 3.7

to 3.12, the values of bj obtained by above procedure are listed together

with the parameter set a Nm J, where the rCJ is the conjunction radius for

the extrapolation. The attenuation length for each incident neutron energy

is summarized in Table 3.16.

3.4 Infinite Medium Effect

The present attenuation factors have been calculated in infinite

media. Therefore, the dose equivalent obtained using the data becomes

overestimation comparing with that for finite ones, which are rather

realistic shields. The correction factor, namely "infinite medium effect"

CH(E,r) is defined as the ratio of dose equivalent H(E,r) behind finite

medium to dose equivalent H-(E.r) in infinite one at the same penetration r

by the following,

C(E,r) = H(E,r) / H-(E.r) . (3.14)

To estimate the infinite medium effect, the H(E,r) for finite

thickness of water, concrete and iron shields of 5, 15, 30, 50, 100, 200

and 400 cm were calculated for energies for 400, 200, 100, 50, 20, 10 , 5,

2, 1, 0.1, 0.01 MeV neutron sources, and the infinite medium effects

CH(E,r) were obtained using the data as shown in Tables 3.17 to 3.19.

Figures 3.10 to 3.15 show the 3-dimensional description of the infinite

medium effect vs. source neutron energies of 0.01 to 400 MeV. The figures

show that the infinite medium effect changes smoothly with the source

neutron energy and the penetration. Besides, the effect becomes constant

with increasing the penetration, which makes possible to do the

extrapolation vs. the penetration.

The reflection of neutrons in iron is significant, and the infinite

medium effect attains to 0.23 at 400 cm radius for neutron source of 400

MeV. However, the dose equivalent H(En,r) for a shield of finite thickness

is estimated without serious excess overestimation using the data of

CH(En,r) interporated for source energy and extrapolated for shield

thickness. The correction procedure has been added to the PKN-H code.

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JAKKJ-Date/Code 94-003

4. DISCUSSION OF ATTENUATION LENGTH

So far, the attenuation of dose equivalent for high energy neutron

source has been represented as a product of exponential attenuation part

and geometrical attenuation part 1/4* ra,

H(r) = Ho x exp(-r/A . « ) / An r2 . (3.1L)

where X ,lt is effective attenuation length, and it has been shown that the

value for concrete is independent upon the penetration in the range greater

than 200 g/cma thickness.10'

As seen In Figs.3.7 to 3.8, however, the attenuation length X up to

400 MeV neutrons depends on the radius up to fairly deep penetration, and a

limited value X o of the attenuation length has been determined by

Eq.(3.3) for water and concrete. Therefore, Eq.(3.15) have to be written

using the attenuation length depending on the penetration radius as a

following,

H(r) = Ho x exp(-r/A (r)) / 4x r2 , (3.16)

where X (r) is equivalent to the effective attenuation length at radius r.

The inverse of X (r) at disiance r is defined as the differentiation of

-ln[r2H(r)] vs r, and subsequently it is related to X o for water and

concrete as

X (r) = X<> / ( 1 - 2A o/r ) . (3.17)

Eq.(3.17) suggests that the attenuation length X (r) used in Eq.(3.16)

for water and concrete consists with the attenuation length X o where the

radius is enough large to neglect the 2X o/r. The attenuation length at r

= 300, 500, 1000 era and infinite distance in water and concrete are

compared in Figs.4.1 and 4.2. The figures represent clearly that the

attenuation length in water and concrete doesn't becone constant for

neutron source at least up to 400 MeV. In Fig.4.2, other measured and

calculated data are also compared together. As for concrete, Thonas et

al.io> have recommended the effective attenuation length based on the

calculation by Alsmiller et al.11* and Wycoff et al.1** and the experiment

by Gilbert et al.13>. Alsmiller et al. calculated the attenuation of dose

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• IAKKI Iktw/Cuitv 94 003

equivalent in 15 ft(= 620 cm) thick concrete in plane geometry. Therefore,

we have made additional calculations in the sane plane geometry to verify

the present data, and compared it with the Alsmiller's data. The

comparison has been made for 400, 300, 200, 100 and 50 MeV neutrons, and

both results were in good agreement despite of a little different atomic

composition of concrete as demonstrated for 400 MeV neutrons in Fig.4.3.

Thomas et al. has evaluated the attenuation length from the calculations by

Alsmiller et al., as shown by a simbol + in Fig.4.2.io> As seen in

Fig.4.4, however, the attenuation length is still changed significantly in

the range calculated by Alsmiller et al. and the values agree almost with

the present attenuation length at 500 cm radius calculated in spherical

geometry as seen in Fig.4.2.

In Fig.4.5, the attenuation length I o in iron are shown with other

data, where the broken line shows the result obtained with HILO86 cross

section. We have already pointed out that the effect of self-shielding

factor in resonance energy region below 1 MeV is serious for the dose

attenuation in iron, because the dose equivalent is dominated by neutrons

less than 1 MeV in deep penetration even for several hundreds MeV source

neutrons.4* Figure 4.5 reveals the different cross sections give a

difference greater than 50% to the attenuation length. The present

attenuation length in iron, which was calculated with HII.086R cross section

is constant from 400 MeV down to 1 MeV, and nearly equal to the measurement

value for 12 GeV proton incident at KEK14>, although the value is larger

than the measurements of Howe et al. 1 6 > and the estimation value of

Stevenson et al. i o >.

5. CONCLUDING REMARKS

A lot of attenuation length has been measured and calculated in

context with the Moyer model1T> for neutron shielding in high energy

accelerators. In the model, the attenuation of neutrons above 150 MeV is

represented with an attenuation length which is independent upon the

energy. The present study made clear that this special feature isn't

satisfied for neutron sources in the intermediate energy region up to 400

MeV. Shin et al. 1 8 > have calculated the buildup factor of neutrons in a

slab geometry of concrete and iron shields for 12 neutron energies froa

thermal to 400 MeV based on the multigroup cross section DLC-87/HIL01**,

- 8 -

.IAKHI- Date/Code 94 003

and proposed to represent the atenuation with the buildup factor and the

removal cross section which has been assumed as total cross section in the

same sense for gamma-ray source. This idea Is physically rigorous, but the

values of buildup factor of neutrons are strongly dependent upon the enprgy

group structure of cross section and vary largely with the energy to

reflect the complicated feature of cross section. In addition, the

absolute values become very large, which have already been indicated by the

present author11.

The authors, therefore, have calculated the attenuation data in water,

concrete and iron with a point isotropic geometry for 55 neutron energies

from 0.01 to 400 MeV based on the revised cross section IIILO86R. These

attenuation data were fitted to a 4th order polynomial exponent formula

having an exponential term for extrapolation to facilitate the application

to a point kernel code PKN-H.

ACKNOWLEDGEMENTS

Authors express their gratitude to Shuichi Ban of KEK and Kazuo Shin

of Kyoto University for a discussion of attenuation length.

REFERENCES

1) Kotegawa.H. and Tanaka.S. .""Attenuation Data of Point Isotropic

Neutron Sources in the Shielding Materials of Water, Concrete and

Iron",JAERI-M 90-174(1990),(in Japanese).

2) ORNL-RSIC Data Library Collection. DLC-51/JSD-100/120.

3) Kotegawa.H. and Tanaka,S.:"A Point Kernel Shielding Code for

Calculations of Neutron and Secondary Gamma Ray lcm Dose Equivalents:

PKN",JAERI-M 91-148(1991),(in Japanese).

4) Kotegawa.H. et al.:"Neutron-Photon Multigroup Cross Sections for

Neutron Energies up to 400MeV: HILO86R -Revision of HILO86 Library-",

JAERI-M 93-020(1993\.

5) "PKN-H".JAERI-Data/Ccde 94-xxx(1994),(under preparation).

6) Koyama.K. et al.:"ANISN-JR:A One Dimensional Discrete Ordinates Code

for Neutron and Gamma-Ray Transport Calculation",JAERI-M 6954(1977).

7) ICRP-51:"Data for Usa in Protection Against External Radiation",(1987).

- 9 -

.IAKKI Dnif I". ..It- HI (l(i:t

8) Alsmiller.R.G.,Jr., Barnes,J.H. and Drischier.J.D.:"Neutron-Photon

Multigroup Cross Sections for Neutron Energies g400MeV (Revision 1)",

ORNL/TM-980K1986).

9) Hasegawa,A.:"Development of a Common Nuclear Group Constants Library

System, JSSTDL-295n-104 7 Based on JENDL-3 Nuclear Data Library",

Nuclear Data Science and Technology, p.232, Springer Verlag(1991).

10) Thomas,R.H. and Stevenson,G.R.:"Radiological Safety Aspect of the

Operation of Proton Accelerator",Technical Reports Series No.283,

IAEA,Vienna(1988).

11) Alsmiller.R.G.,Jr. et al.:"Shielding Against Neutrons in the Energy

Range 50 to 400 MeV",Nucl.Instrum.Methods,72,213(1969).

12) Wycoff.J.M. and Chilton.A.G.:"Dose Due to Practical Neutron Energy

Distributions Incident on Concrete Shielding Walls",Proc. 3rd Int.

Conf. IRPA(Snyder W.S.,ed.),Rep. CONF-730907-P1,694(1973).

13) Gilbert,W.S. et al.:"1966 CERN-LRL-RHEL Shielding Experimet at the

CERN Proton Synchrotron",UCRL-17941(1968).

14) Ban.S. et al.:"Measurement of Transverse Attenuation Lengths for

Paraffin, Heavy Concrete and Iron around an External Target for

12 GeV Protons",Nucl.Instrum.Methods,174.271 (1980).

15) Howe,H.J.,Jr. et al.:"0n the Shielding of the External Proton

Tunnel Area of Argonne's Zero Gradient Synchrotron",ANL-7273U966).

16) Stevenson,G.R. et al.:"Determination of Transverse Shielding for

Proton Accelerator Using the Moyer Model",Health Phys.,43,13(1982).

17) Moyer,B.J.:"Evaluation of Shielding Required for the Improved

Bevatron",Rep.UCRL-9769,Lawrence Berkeley Lab..Berkeley(1961).

18) Shin.K. and Ishii.Y.:"Build-Up Factors for Medium Energy Neutrons up

to 400 MeV",Radiat.Prot.Dosim.,40,185(1992).

19) Alsmiller.R.G.,Jr. and Barish.J.:"Neutron-Photon Multigroup Cross

Sections for Neutron Energies g400MeV",ORNL/TM-7818(1981).

- 10-

Table 2.1 Calculational conditions Table 2.2 Atomic number densities unit(10*Vcm3)

Code

Cross section

library

Number of

Energy Groups

Source

Shielding

materials

Geometry

Flux to dose

equivalent

conversion

factors

ANISN-JR : 1-dimensional discrete

ordinates transport calculation code

HILO86R*5 : ( PB )

effective macroscopic cross section

neutron 66 groups

gamma-ray 22 groups

point isotropic

55 monoenergetic neutrons

( from 0.01 to 400McV )

water, ordinary concrete and Iron

1-dimensional sphere ( S 1 B )

neutron

gamma ray

E > 20MeV

E & 20i*leV

E > lOMeV

E § lOMeV

Maximum dose*'

lcm depth dose**'

Maxlmus dose*1

lcm depth dose**'

•) ICRP Publication 51(1987),p.39,Table 23.

••) ibid.,p.36,Table 21.

•) ibid.,p.26,Table 14.

••) ibid.,p.22,Table 10.

H C 0

Mg

Al Si K Ca I-e

density

(g/cm3)

water

6.6738-2*1

3.3369-2

1.00

ordinary

concrete**1

1.3851-2

1.1542-4

4.5921-2

1.2388-4

1.7409-3

1.6621-2

4.6205-4

1.5025-3

3.4510-4

2.27

iron

8.4869-2

7.87

•) JAERI-M 6928(1977).

••) type 02-a concrete,ANL-5800(1963),p.660.

•) read as 6.6738x10"*

Table 2.3 Flux to dose equivalent conversion factors for neutrons

Table 2.t Flux to dose equivalent conversion factors for gamna rays

CO

I

Flux lo dose equivalent conversion factors for neutrons

Neutron

energy

(MeV)

700.

400.

200.

100.

60.

20.

Maximum*'

dose equiv.

(lO'^Sv cm2)

1050.

630.

508.

469.

450.

425.

Neutron

energy

(MeV)

20.

17.

14.

10.

8.

7.

6.

5.

4.

3.

2.

1.5

1.0

0.5

0.2

0.15

0.05

0.02

0.01

0.001

0.0001

i.oxio-"

1.0x10""

1.0xl0"T

2.5X10-*

lcm depth"*'

dose equiv.

(10"1JSv • cm2)

GSO.

610.

520.

446.

417.

40.1.

383.

378.

40!).

380.

352.

362.

340.

258.

126.

69.

35.

14.6

8.6

6.2

7.1

9.2

11.2

10.4

8.0

• ) 1CKI' Publication 51 (1987) .Table 23.

••) Ibid..Table 21.

Flux to dose equivalent conversion factors

Gamma rays

energy

(MoV)

20.

10.

Maximum*'

dose equiv.

(10-1!ISv • cm')

41.6

24.3

Gamma rays

energy

(MeV)

10.

8. /•

u. 5.

4.

3.

2.

1 .5

1.0

0.8

0.6

0.5

0.4

0.3

0.2

0.15

0. 10

0.08

0.06

0.05

0.0-1

0.03

0.02

0.015

0.010

for gamma rays

lcm depth""

dose equiv.

(10-' 2Sv cm2)

25. 18

21 .26

17.38 15.43

13.32

11.05

8.4 75

6.916

5.096

4.280

3.380

2.880

2.381

1 .808

1 .181

0.893

0.612

0.531

0.503

0.527

0.614

0.786

1 .010

0.846

0.0743

I IC.KP Publication 51 (1987) .Table 14.

•) ibid..Table 10.

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10-3000'

10-3000'

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00*3003'

00*3000'

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• JAKKI Daliv-'C'iidc 01 Oll.'i

Table 3.1 Dose equivalent per source neutrons and attenuation factor of neutrons in water (1/11)

DOS! IQUIVUI* AND AMiKUlU t l l l A I HI U1RON

B C f. H )

10.0 l i .O

41.0 10.0

IQ.O

AO.O

00.0 10.0

170.0

J 9

0 1

30.0

10.0 60.0

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00.0 10.0 00.0 10.0

10.0 00.0

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OO.Q 10.0 0.0 0 .0

700.0 JOO.O

1 9

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r t,

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1 J 7 1

1 1

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00.000

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t t

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661 94( 01 I

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10

1

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t

1

1 1

1 1 1 9

t

T

6

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J

1 0

7

a. 3.

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W

44 t i 66 t r

00 77

JB Ab

7/

901 4 31 11F

T. f

1 ' 0 0 I'00

1 '00 I '00

( <00 F '00

( *00 f -00 r o i ( 01

01

01

o t 01 01 01

07 07

07 03

01

1 4

0 4

0 4

7.AM t . lAf

1.701 9.191

4.67T 3.47(

7 . f i l l I .67 1 . 10 1 .06

4.74

J.Ob

7, HI l.66f I.S7I t .07(

I.OII

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09 09

10 1 1

1 1 1 1

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1 1 1 1 11

7

7

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1

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M l

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07 07

01

1)1

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7. /A l 1. M l

1.1/1 9 .

4 . 4

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1 .9 1 . ' 1 . 7 1 .0

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or

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09 09

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1 1

1 1 1 1

B( 13 If 1J 71 I I

7. M l

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J i

6 t

b I t

1

9

H

a

6

6

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4

7

1 6

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h

7

Al 1

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.741

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.B/(

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111 1»F O f

* 9 f

181 tot

101 161

t*\ M l

M l *'l I OAI

•00 • 00

•00 • 00

• DO

• 0 0

• 0 0

0 1

01 01

01

01 01 01

7. M l 1 . lOf

1 . 1 J( 9.O7F

4 . lOf 3 . 1 / F

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t -00 "00

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01

01 01 01 0?

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01 OJ

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l l f 6 71 J7 I flOf

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4 I f

4M

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161 00(

f ' l A l l

B1I 111

OM 461 1HI A 71

000

• on •00

• 00

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• nn •00

01 01 01 01

ot

o t

01 n t 01 0?

07 07

01 01

01 01

r>4

OS

Table 3.1 (Continued) (2/11)

DOST fQUIVAtf Ml A "0 A " ! HIIAI KIN F AC TOP

1*0.0001 AM,>

1.041 1.671 3.171

9.911 10 1.411 10

10 1 . 7 /1 ' 0 0 1 . 19F

7.771

j .04F 10 1 .30F«00 4.9*1-10 I.101 * 3. l i t 10 1.7TF »00 3.091 1« 1.J6I• 7.141 10 1.74F»0f> J.10T 10 1.74l«i

8.791 l . M F 1 .101

1.70F'OO 1.1JCO0 1 . l t l 'OP

t l 1.011*00

l.tO.0 8.3 7C 1?

9.131 01 B.63C 01 n.i3t oi

7.011

1.?W

i. ru • 1 . 141 • 1.091 •

9.MF

B.101

11 9,J9( 01

11 I . H t O I

r.oot n i . i i i '00 4.ft0f M K0»f'00 J.Ht-11 1.07I'00 7.79E 11 1.(71 01 I . 70E • 11 9 . O K 01 i.;«r n 8.4flt o i 9 . 4 U • 1? ' .B9( 01 T. Ttl • 1 J 7. JU 01

i ; 6.pir oi t 7 S.tH 01 S.JJt ».90l

15 I.TiOF 01

1.171 l.falF 7.901 1.1K 7.B8E IS « . l t ( OJ 7.Iff tJ 8.101

1000. 1100. i70o. 1100.

i.m-0!

o 9.boi i r i . o u 04 0 i . U f W 7.901 04 0 1.101 U I.OSf 04

4ir 19 A.141 06 .7*|( H 1 .111 06

i . lA f 1ft 1.^71 04 7.?M U J.41I C4 6 , p « r i r j . n i 04 j . 6 ? ( u i .«J7i 04 3.081 - I f 1 . T9I 04 I . M I W 1 .061 0*

I. Ml IB *.B3t 01

! • J .U I 06 l.J«F 19 1.1.H 06

- 1 4 -

.IAKKI -Dale /Code 94 O0H

Table 3.1 (Continued) (3/11) **o AIKHUAIHM FACJan > unit a

IHCtOlM! HtUtKU* INERGVINfV)

1J (160.000 • 140.000) (140.001

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160.0 2 .75E01

180.0 1.84E-17 J.*8E 01 1.11E17 J.33E 01 I . 2 6 E 1 7 7.811 01 1.09E 17 7 . * t f 01 9 . 2 4 E U 2.12E-01 190.0 1.J1E-12 ! . t 7 E 0 1 l . 7 ? £ - 1 ! J.OOE 01 1.OOE•1? 7 .1O101 8 . 6 1 £ • U I .1TE-01 / .? *£ •13 l . l * E - 0 l

200.0 l . ? J f l ? i .29f 01 9.9?l IJ Z . /0E01 fl.ObC 11 7.7JE01 6 .B* ( -1 i 1-97C 01 1.ME-1J 1.k!E-0l nO.D 4.8IE-1J 7.0JE01 J.ME- 1] 1.58E01 MtF'l! 1.7JC01 2 . J 4 £ U I . 0 2 E 0 1 1.8SE13 I . I 9 E 0 J 300.0 7>O1Ek13i 1.2OE'O1 1>45E~1J l i O E - 0 7 I.ObC-t3 4i5/E'O? 1.2/E*14 5*?O£*Q2 4.72E-14 3i9rE*07

JiO •oo.o j . r c c - t 4 4.ate o? ? . « J E - M ?.»*f O? \.?bl'Q2 l . K C - 1 4 I.7BE-O7 f . r4£ -1J t . / rE -OJ

SOO.O f . * ? E l i l.JTE

rOO.O J .J4f -16 I .UE-OJ 7)0 .0 1.4TE-1t i . i r E - 0 4 1.2kE-t? L ITE-04 1 . T M - W t . H E 01

i i o . o s.jn 900.0 I.80E

1000.0 4 . 1 I E H

t?00.0 7.2OE19 IJOO.O > , l l t - 2 0

I . / 7E -19 i . lOt Ok

2t l . t . H - 0 1

Table 3.1 (Continued) (U/11) 00SE EOUIVALfH! AND AIIEHUAIION FACIOH I VAUft I IQlAl NtUtRDM

INClOtHI NtUIHON IHERGV(flEV)

\T

RICKI H ATI ,T AtT.F H ATI.f

10.0 2.06E-0? 1.4fl£.0O 2 . 0 3 E 0 9 1.48E-00 2.OOE 09 1.4IE*00 2 . H E - 0 9 l .HE'OO I .1AE-0* 1.4 7E»OO

70.0 4>3SE'1O 1.2kE*00 4>2/£-10 1.75E*00 4.18&-10 1.24£*00 4 7b£-10 1i27E*QO 4 . 0 J E - t 0 l«Z7E*00 25.0 2.k8Ek l0 1.2OE*OO 2>kO£-10 1.13E^OO 2j53E-tO 1.17E*00 2 54C'1O t 19E*00 2.47E-1O 1*14(^00 30.0 1.78E-10 1.15E«00 1 . / IE -10 1.12E>00 1.66E•10 1.10£«O0 t . 6 )E -10 1.11E*O0 1.5TE-10 1.0TE*00 J5.0 l , ? * f !O t.QVUQO I . )9£ 10 l.OtffOO 1.1If -10 1.04E<00 1.14E 10 I.OiE'OO t.OI£-tO «.17E-0* 40.0 9i3OEk11 1.07E*00 8.B3E-11 I.OJiEtOO 8.4tiE' l1 l.OOE^OO 8 I ^ E ' t i 9 . /3E-01 T 8k f - I t 9.48E-01

50.0 S.3T.E11 9 . 6 0 E 0 1 5 . 0 U - 1 1 9 .14E01 4 . / *E 11 B.rkE-OI * .? *£ -11 S.I3E-01 » . J 7 £ U i . U E O t

70.Q 3.1?E-t1 f .62E-01 1.99E-11 f . lOE-01 1.83E-11 6 . 6 I t 01 I.77E 11 k.AIE-Ol 1 .HE*11 S . l tE-Ol

90.0 1 . 0 3 f t ! 5 .18 t -01 9.1 BE-12 l.*7E 01 8.73E-17 4.97E-0! 7 . k 9 E l ? » . * 5 t ' 0 t 4.R2C-12 4.14E-01

120.0 J.96E-12 4.04E 01 1J0.0 J.94E-12 J . W E 0 1

I . I I f l ? I . M f O l

190.0

200.0 -14 1, JOE 07 J.5kEt4 1.1IE 0?

* . » J t I t l . l » f 0* l.O*E 14 I.CEOt

19 1.HE-0*

800.0 1 . 0 1 ( 1 1 4.98E Oh 7.87E 850.0 J.87I 19 2.011 01 9.181-900.0 1.J9E 19 h.tttl-07 3 .01t -

1000.0 l.TBE-20 1.J8E 0? J.70C 7

J.22E 71 3.1?tO*

4.J9f ?2 J.7U 09

11 ?.60l

!.?»[ 71 7.0?C-0f J.t^t 2? l . « t 09 r.«?l 71 1. IK -10 i.art 73 i . o t i o i.nr ?• i.otf ti t,.\%\ TI. ;.i4t u

- 1 5 -

•JAKk! Dil i (•,-'•(.', „!,• 91 00,'i

Table 3.1 (Continued) (5/11)

INCIDENT NEUTRON FNE RGV(Hf.v>

77

1.27E OB 7..JZE-00

H A i r . I

1.701-08 J . J H ' O O

A f t .F 2.51E'OO

(( * f f . f

!.?•»£ 01 7.S6E-00

s . o f . t i t i o i . J O E * oo r . * a t - I D i . ? • ) [ « oo r . u i - to i . 7 B E < O O • 10 1 . JOOOO - 10 1 . WE'OO

10 1.29E>00 i o i . ) * t * o o

O.Q 1.57E- 10

IO .O 7 . J 8 E 1 1 6 . 1 J E 0 1 ? . ! « H b . 0 & £ 0 1 1 . 9 « n J.J7E 01 l . f J E 11 4.BTE 01

100.0 *.Ot>El7 1. 10E01 110.0 7./1E 12 2.HE 01 170.0 1.88E-12 7..06E 01 1JO.0 I.JOE- 12 l .b f l l 01

7.7JE I 1.6JE-I 1.191 •(

I . 5 4 J - 1 ? i . r o t - o i

1 . 0 4 f 1 ? l . J b f - O l

I . m - 0 1 i.O*E 01

8.&2E U 9 . M l 0? 5 . 3 « 13 6 . 1 U - ' i . « f l t - U f . 7 4 E 0 T J.7JE U * . J 1 E - |

• I I 7 . 1 6 E O 2

J . 7 0 E 1 J 7. 7BE- U

r . o v f 03 5.b4E 0?

u J.o | J ?.?

7 . U 1 0 7 i . b O E O ?

l . O b l 7 . J S I •

.0 7 . J 7 T 1 4

.0 1 .07E11

• 0 ».69( H

I . l J E O ?

9.17E 0*

7.7JE 01

! • • « • 14

4.9«F Ib

1 .801 - 11

1 . 1 7 E I 4

i . i JE • n

6. JOt •1 / b.OJE 01 1.1«f 1 r 8.4«r it l.Obl 01 I . 7 7 F I 8 l . W t IH I . e i t 06 l.JQF 19 7.0RI i

.0.0 1.01119 J.J9E 07 7.V0E 70 B. l4 l On *.uOt 71 1.1 b.

,Wt 77 1.111 09

?J 7.101 10 4 .1 I I

>.O 1.1 I I -71 1,0 ? . * 4 l - »

7.WI 1 . . ' H i.tot

r* ? i

ft

i i 6

. 9 M

.1IF

.4 ft

• 1 1

- 17

V i 1

.bbf

.Oil

.011 Jh

7H

i . n i l 7? 9.101 io ?.?u ?! i.m io t . u r - 7 4 h.mt i ; J.6U ?i 7.0H-10 l.vH ?4 r . t Ml 11 1.9hl!i 1.1H 17 /.OOF 7t 4 . Jht 11 ft. Ni l ?-i a. ?OI 17 ? . M l 7b 1 .SOI 11

9.171 t.1 1 . 1»t f, ? .99t 1J 4 , 0 * f • ?T 7 .Ml 14

7 . 0 4 1 - 1 / 1 . 9 U ?h 1.S01 1J 1 .B I I ?n >.ibi I1. 9. 1h( • 1* l . b . ' l ?l •>. J71 I1. 1 . I l l ."* 1 . 1 Jl - If. 4./4[ i l l .b i i 71 1 .fl*L • Id 3.-4[ i i ?. not in

7. 7. 1 . 1 .

1 .

71f 4Rf f 9 f

101 4 M

nil bU

m

74 71

7b 77

• ? «

• 7 1

to 17 14

9.87E

1.761 1 .19[ 1 .991

7.<HE 1.071 * . * H

b . M 1

Table 3.1 (Continued) (6/1J) DOSE LQUIV4LEN AHO ATILHUAT|UN IACIOH

B<CN) H A l t , T

1.0 1 . 2 8 E 0 8 ?.15E'OO 10.0 1.90E 09 l.ME'QO 11.0 T.lOl 10 1 . I f f *00 70.0 J.10F- 10 1.1?E«00 25.0 1 .9TE•10 9.80E 01 JO.O 1 .20t•10 B.5/1 01

l.BflE 01 l . i U ' O O

1 . U l • 10 8.UC 01

ATI .1

: 09 1 . 1 U - 0 0

M 1 . f

• 08 2.SbE»00 01 i . iOt 'OO

I7E 10 l .HE'OO 10 1.061*00 J.14E 10 1.07E*00 7.84F•10 9 . J i t < 10 1 .01(01 1,6 7| 10 8.4<lt-01 1.4JI 10 7.llt i

10 ?.6*1-01 9 .14111 6.ME-01 r . 7 l [ 11 S.72E I

41.0 J.44E - 1 1 I . V J E - O I 50.0 7. J9E 11 4 .TU 01 bo .o i . m -11 J . i i t o i . l i E 17 7.J/E 01

7.91E 01 I . /BF 01

9 .41E- 17 1.»3f- • J . 6 7 E 1 ? 1 .0 /1

8 0 . 0 J.J1E 12 1.69E-01 2.SBE 17, 1.3?t 01 1.8BE 17 9 . / 7 1 07 1 . ? 1 E 1 7 6 . 2 / E - O ? 1.801: -11 3 . 0 4 E ' 90 .0 1.BIE 1? 1 . 1 / E O l 1.J1F 1? 8 .761 07 9.71E | J b.OIF 07 l . l l f - l l ( , *1E 0? ? . * H 13 l . b O l '

100.0 1.07E 12 H.O9f -07 i" . ? 6 t • 1J l . f l ?L 0? 4.69E U I.T9E 07 ?. 6 0 1 - 1 1 7 . 1 I E - 0 ? 1 . 0 ? t l J I . J8 I •(

120.0 J . 7 6 E - U 3 . /4E 02 110.0 1 . B 6 F - U 7 .1OEO7

Z.10F 13 7 . 4 7 1 0 7 1.15E 13 1 . ' ,b t -0Z

1 ,4?t -07 I.S1E OJ

6.f l*«E0J i,87103

J . 1 H i . o r t -

i 9 o . o r . ? 4 E - n ! . o a c O J

700.0 * .28E 15 1.3/E OJ 750.0 3.1bE- 1b 1 . WF 04

I .9 )E 11 l . l l t 16

t . 1 ? t 0*

5.111 01

J . 1 1 I 11 b . H E 04 t.}U It l.JOF-04 1. HE -11 J.ftJE-04 2.72E 1* %.**l 01 7.18F•lb 7.00E04 1.18C-1* J.15E05 3 . / 0 E U 1.09C04 5 . 1 U W l . l l t 05 i .HE i * b . o K - o i ? .?b( - i r r .« i r Ob 5.(i2E IB 7.BbC Ob ] .7< [ i< 1.97E-O/

410.0 9 .b i t 71 l . i f t f OB 1.31E-71 7.1JE 01 1.11E ?7 1.811 10 B.JBt-1?

4.27F 74 l . : i F I 1 3.31F ?S l . U F 1?

'00.0 7.601 - 7b 1.07E 11

1,00t - JO 6.46t - IH

1000.0 1.111 11 4.MF ?0

1100.0 J.471-11 1.7-41. 77 1700.0 1 .99FJ / 7.7BE 74 MOO.O I . U i J9 I . l b l 7b

7.B/E ?i 8.7/1 U l . ? ? l ? b b.OBf-14 l . l ? t 71 4,Jfl( 11

7.T\l 11 l.bOl 70

I .S l f J4 8.11* -?7

v n r ?? i.i?t-14 !..*4i io i.*of

I.b9t-7I 4.<flE-1b 8.561 il J.Ut 1 . /OI 10 1.9»E • 1 / 1 .411 13 *.IH 1.971 -Jl /.bbE 19 7.J0I 11 1.7b( • k.411 J3 7.95E ?0 J . / 4 1 - J / l . M l -

it i . b b l - .M 1,1?t -I . /b l •74 1 ,tj[

J.711 n . H t

- 1 6 -

JAKRI- Dale/Code 91 - 003

Table 3.1 (Continued) (7/11)

( 17.SOO - M.flOQ •<CR) H ATI .F

IAI ION FACTOR I W1I

INCIDENT HfUIROH [Nt*GV(NLV

m i l J .44t -Q1 1 . 2 ) 1 - 1 1 J . D E 0 1 2 . IOE-11 2 .9 IE 01 7 . 2 1 E - H 2 . 3 4 C O I

4 5 . 0 1 . 3 5 E 1 1 7 . 2 6 t - 0 1 1 . 1 1 1 - t l 1.94E l.OOE 11 I . 7 I E 0 1 I . t O t - 1 7

9 0 . 0 1 . 7 0 E 1 1 1 . 1 4 E 0 ? l . l b E - 7 . S 1 E 0 1 B.40E-14 5 . 7 2 E O 1 S.19E-14 J.J7E 03

110.0 2 . 7 J E - M 2 .7bE-01 1.48E- 1 . 70E • OJ 1 . H E - 1 * I . U E O J 4 . 7 J C - 1 ) 4 .40E-04 I4£-|5 7 . I U - 0 *

3.O9E-04 i . / i t Ifc 1 . 2 O t O *

3.43E 17 t . S V t - 0 4

w o . o i . ? i c - t * J . O I E - O I

29 10 11 12 13

17 J l

300 .0 ! . * • £ • ? ! 1.061 01 1 . 1 4 1 7 ? ?, JIE-J50.0 1 . r0C-3J t . M E - H J . I J t ! * ? . !»£•

4 . J 7 E 7 ! J . J 7 C 1 0

7 . ? 0 f - ? l 7. * 1f -1J 1 . 7 I C ? ) I . J t t I J l . 4 f E 74 J . » 4 ( J *

5 ) 0 . a J . J 4 C - J 1 J . m - I * 4 0 0 . 0 ] . * U - 3 3 1 . 1 4 E 2 0

1.44I-J2 4.I1E-70 1.*if-31 *.9Tl-1\

1,1«E1» 4.04E 77 1.S7E 3V 1.991-7J

» . l ? f ?? 1.14E J l l .OOE-71 I.TIfU 4 . J 4 ( - J | ! . ! ? £ ? )

7 0 0 . 0 J . I 4 E - J 7 2 . 3 / C 2 4 H U M 4 . 0 7 1 76 ) . I I C * O 7 . 4 K - ?? J. l « - 4 ? f , O O E - J * 1 , 7 7 1 - 4 i 4 . 0 I E J O 7 1 0 . 0 r . n t J 9 3 . J I E 24 I . 5 9 E 41 t . O 4 t - 2 l ) . » » E 4? I . R 9 F 7 I I . O S t 43 1 . 0 0 1 11 1 . 1 4 C - 4 ) 1 . 7 ( E ) ?

4 0 9 ) 0 . 0

1 . 5 I E - 4 4 I .OJ l . 4 -» ( 10 l . l b t I I 1 . 9 9 E - 1 7 1 . l i t - 3 9

t . 4 ? f 1 7 t.?4(-11 }.lOt*> ? . J * t - * t

noo.o i.«or 17 7.3Ot 6b

Table 3.1 (Continued) (8/11)

UK MOM FftCIOB / hATtR / TOTAL ME UI RON

( 8 .190 - 6 .700 ) ( 6 .700 - 1.4 90 ft<CH> H A U . f H KIT.r I.F H ATI .* H A1T.F

E'OO ) .StE-09 1.18E*QO ^ . 7 0 t < t f t . t tE 'OO

J i t U 2.32C 01

JJ.O l . » 4 f - 1 J 1 .47E-01

1 0 . 0 7 .J1E-12 4.94E 07 1.57E 17 J . 16C0? 6 .44 f l l l . J l i D?

1.71E 17 1 . 1 7 E 0 ?

T..OSE 1) 8 . I 1 E O 3 7.31E 11 « .2 * f -03 1. 9>IE -13 t . H E - 0 3 7.94E 14 l .«?E-01

70.0 l . 7 l f - I J 7 . l * f - O J 1 0 . 0 4 . I 1 E 1 4 ? . ( , U 0 J

100.0 3.9bE-1) J . l f tE04

UO.O 1.72E IS 1.26E-0*

190.0 700 .0

1 . l i t 01 4 . W E \i 7 . J 8 E 0 4 6.77F \t l . * l t - 0 1

27 100.0

400 .0 4 .00C-10

10.0 I .7UE-J4 J.1*E

8 . I1F-71 1.40E 09 l.OOE-7? l . *4E-1 .3 I t 7.1 2.5 2E1O I .OJt-J? ? . » £ • 2.01E 77 4.41F-11 1.43E-21 J.Jfct J.16E ?] 7,|4E 17 1.90E-74 l.OJE

7.77E ?S J .J1E13 J.4*E-2b I . U t - 1

O.OOt'OO Q.OQE*1

0 . 0 0 t * 0 0 O.OOE'i

HO.a l .8J | tb I.AOf J4 9.9.4E 48 K.bbl n 7 . 8 9 r « 9 1.J7E- J* O.OOE'OO O.OOE'OO O.ODf'00 O.OOF't

800.0 7.4)1 »9 4.06E 3* 4.OK 10 7 .1M JT 1.201 I t 4.781 J« O.OOE'OO O.OOE'OO O.OOt'OO O.OOE'4 810.0 7.78E~ll l .7lE~J8 i . l i F - ^ 7 %.O7I 40 4.40E')4 ?.7lf 41 0.001^00 O.OOt^OO 0.001*00 0*00t*^ 900.0 I.A7E 14 4* t1C'4t 4 B / 9 ( ~ ) ) J.73E 4? 1 . ) f ( ' 5 4 f . V4f. • 44 0 . QQt *00 0 00 f *00 D.O0t*OO 0.001.'^ 110.0 1.7AE-15 9.871-41 4.911 17 1.721 M 7.16E IB 1.191 *) O.OOt-00 O.OOE'OO D.OOfOO O.OOfM

1000.0 1.861 V t . W I 44 l .Olf id fl.*D( *b J.IJE 60 ; . ) ) [ %! O.OOE'OO O.OOE'OO 0.001-00 O.OOfX

IJOO.O 8 . i \ f i j t .OM -

1100.0 l . l i f bd 7.7ir 9.DJI ?o i . irit \b j . i?t n ». ??( i i o.oot >oo o,oo('00 o.oot >oo o.ooi »oo

- 1 7 -

.IAKKI I)M1C/C',,C1C 9-1 003

Table 3.1 (Continued) (9/11)

OOSt EQUIVALENT trNU*l!OH fACIOR

INCIDENT NfUIBON

15.0 1.861 10 4 . 1 0 f 0 )

30.0 5.08F 11 1.9Bf 0) 2.37E-11 B.77£O?

3.6JE-10 J.51E 5.77E 11 1.15C-i . J i t 12 J . 7 H -

40.0 4.61E-1J / . ?1f OJ 45.0 I . i l E U 2.98E OJ

7.17E IJ I .J8EO3 5.BSE-14 9 . 2 H - 0 4 4.»6E 14 I . H t OJ 1.J6C 14 3.72EO4

2.11E- I* J .JOt-0* 5.77E 15 * . *8F 15 8.B6E -05 9 . l 7 t • U

15 7..07EO* l . f l lE 15 6.5OE 7.06E 16 L J H 0 6 J.97E-17 l . J K - 0 6 * . 7 ? E ' I S 1 . 7 0 f l l

* . 1 0 t i 8.91C-I

90.0 I . 0 B E 1 7 8.57E 100.0 1.J7E-18 1.J*f 3 3 2 . J 7 £ 1 1

1b

140.0 50.0

1.0 i . 5 5 E 7* I . 3 U - 7 ?

180.0 140.0 200.0 JJO.O JOO.O

i .ost 1.64E-7.60E J.6JE-l . * U -8. 11E b.7bf 1

J.?Bf 3.411 4 ,b / ( i .os i k.lQt 1 , 1 1 1 -

3J * .471-13

75 1.19t 13 1.4hE 14

7.93E 1b J.4JI If 1.061-71 J.B6I ?6

.7OE-78

.47E 79

.19E-J1

.01F-JJ

.001-18 . U f 4)

1.19E • 6.97E S.60E

7 . B 7 E

7 . 1 0 E

ot • • f rt-if

I

n

n i . i JZ 1 .?

J 3 T 1 34 1.1

40 7.1

loftoo O.OOt'OO O.OOE'OO 0.001*00 O.OOi <00 O.OOf >00 O.OOt'00 O.OOf >0Q

8 . J 9 E J 0 8.44( J l

7. l O t - J * 1.J1E JV 7.401 41

i.fltl-i.40( 1.B!f-!.09(-! .?/!• 7.64( -i\J*f

O.OOE'i O.OOE *i O.OOf'I O.OOt'i

600,0 O.OOE'DO O.OOt'OO 610.0 O.OOf *00 0.001*00 roo.o O.OOE too O.OOE *oa

O.OOf'00 O.OOE'OO O.OOl>00 0.001'00 O.OOf'OO 0.001'00

0.00t*00 O.OOl'OO O.OOE'OO O.OOf'00

O.OOt'00 O.OOt'OO O.OOf'00 O.OOt'00

U.00(*00 0.001•00

o.oot* O.OOf'

900.0 950.0 1000.0

KOOF'QO ) . 0 0 t ' 0 0

l.OOE'OO

O.OOf ")0 O.OOF'00 0 .001 '00

O.OOf -00 o.onr <oo 0.001>00

0 . 0 0 1 ' 0.001 > o.oor T

0 . 0 0 C > 0 0 o.oot>oo O.OOf «00

O.OOf'00 0.001 o.oot

0.001 '00 O.OOt ' O.OOt'00 O.OOE1

O.OOF'00 O.OOf'

O.OOt'00 o.oot >ou O.OOt•00

O.OOf'00 O.OOl'OO

Table 3.1 (Continued)(10/11)

3.9TE ?.B8L I.86E -5.J6! -B.OTf

3.?1E -01 8.J9f 07 ?.0?E 0? 4.B0E 03 1.DJE 03 7. 10E 04

fl(CH)

10.0 15.0 70.0 75.0 JO.O

n.o

50.0 5.*8E W l .J3t 06

?0.0 7.79E-3O 1.08E 09

90.0 7 . 8 U - 7 J 7.3Of I? 100.0 1 . 4 6 E 3 * 1.41E U

170.0 4.J8E-77 6.IOE 1b 130.0 1.5'E -?8 ? . 5 6 t • 1 1

H A I T . i

3.5BE • 10 7. ME 01 3.4ftf -11 B.?Of 07 4 . / i f 17 i .98f o ; ? , 0 ? f • V3 4 .n?E 03 1.001 13 t.ili - 0 4

.".HI 91E 0*

4.J6F-17 1. I5t Ob

1.9JE ?0 9.95E 10

I . 3U I -7J l.S.ir l .OJ t -?* l.Ofll

7 . ' . 51 3.4OE

?.O0E 07 l.bSE 0? J.J9E OJ

8.311 15 1.?JE04

\t 7 .8JEO7

IbE ?0 6.JS1- 10

B ( 3 J 1.17F- 12

1.70C 11 7.09E 13 7.5BI-1J

4.14C 0? 1.J-E 0?

1-*9C u 7 . 6 I I 0 ? 1.7 Tt- I? 1.6JI 0 ! 7.1*1 1] 3 .081OJ

«.0Bt-15 8.00E 05 J.J4E-1S 9.J91-05

9.14E 18 J . 6 6 E 0 7

3.04E 31 7.J9E 10

1 . H E - ? * I , M [ | ]

5.611"- W J.fcJl 06 -18 -at

1.J41-19 t , l tE -OB 7.49E ?1 3 .8OE10 4.841 ?3 r . l 3F - l 7 . 9 . O f 35 I . 7 6 F - I 3

O.OOF'OO O.OOE'OO

O.OOE'OO O.OOf'OO

170.0 1.67E JJ I . J i f JJ 4.171 73 O.OOE »00 O.OOE'00 O.OOE »00 O.OOt • 0>00E*00 O.OOC ' O.OOf'OO 0 .00£«

J10.0 O.OOE'OO 0.0< 400.0 O.OOl'OO

f'00 E'OO

O.OOF'OO O.OOt.00 O.OOE'OO O.OOt>00

O.OOE'OO O.OOt'OO 0.001*00 O.OOf'OO

O.OOf'00 O.OOE'OO O.OOl'OO O.OOEH O.OOf'00 O.OOf'00 O.OOf'00 O.OOt»l O.OOE'OO O.OOE'OO O.OOt'OO 0 . 0 0 1 H

650.0 O.OOt'OO O.OOL'OO TOO.O O.OOf'00 O.OOF'OO

o.oof'OO o.aoi-oo O.OOf'OO O.OOf-00

O.OOt'OO O.OOt'00 O.OOE'OO O.OOt-00

O.OOE'OO O.OOf'00 O.OOE'OO O.OOC'OO

O.OOt'OO O.OOt* 0.001*00 O.OOt'

900.0 O.OOf'00 O.OOt >00 O.OOt'00 O.OOE'DO 0.001>00 O.OOf*00 O.OOf'00 O.OOf'OO O.OOf'00 D.OOI'00

1000.0 O.OOE'OO O.OOt'OO 1100.0 O.OOL'OO O.OOf'00

uoo.a o.oor*oo o.oot <oo

O.OOL'00 O.OOF <00

0 .001 '00 O.OOL'OO

O.OOf'00 O.OOf <00

O.OOf'00 O.OOt'00

O.OOf >00 O.OOf'OO

O.OOF'OO O.OOt "10

0.001*00 0 OOt•

0.001 '00 O.OOf*'

- 1 8 -

9-f -003

Table 3.1 (Continued) (11/11)

A t t . F i.fcJCOO

'5.0 I .79f - JJ J,»»f -0J I . S M IJ ».I»E OJ I.UIU 1.0 Jf - 1 ! r . * 8 l O ? 9.b*t - U 1.?6E-01 l .??f 11 l.JBE-02 1 .HC-1J 7.3JE-O?

IO.O I . M E - 11 1.J2EGB

9 . S 9 E ? ! O.OOO 00

B.90F.-7.1 0 . 0 0 0 0 0

J.19E U 0.0OO00

1.Q4E-?* O.OOf'00

1. IU-J* O.OOf'00

I . 5 9 E 0 I 1.69E7.1 2.7OEI l . O O E l l 4 .1JC73 l . t t C - ' 1 . 7 ) E l Z 1 . 1 3 C ? * I.9BC-0 . 0 0 0 0 0 O.OOf'00 O.OOf •(

?0.0 O.OOCiQO

1JO.0 O.OOE'OO O.OOE'OO O.OOE'QO O.OOE'OO 0.00£«00 O.OOI'OO

tSO.O O.0OE*O0 0.001*00 190.0 O.OOE'OO O.OOE'OO

O.OOE'OO 0.001*00 O.OOf-00 O.OOftOO

0.001*00 0.001*00 O.OOE'OO 0 . 0 0 1 ' O.OOE'OO O.OOE'OO 0*00(^00 Q.OQf' O.OOf>00 0 .00f t00 0.001*00 O.OOE' O.OOC'OO O.OOC'OO O.OOt'OO O.OOE'

OOE' OOC'OO O.OOE'OO

400.0 O.OOf'OO

too *iO 700.0 O.OOf'OO fSO.G O.OOE'OO 600.0 O.OOE'OO 810.0 O.OOCOO 900.0 O.OOE'OO

O.OOf'OO O.OOE'OO

950.0 10OO.O 1100.0

0.00000 0.001*00 O.OOE'OO O.OOCOO O.OOE'OO O.OOt'00 O.OOE'OO O.OOE'OO O.OOE'OO O.OOL'OO

0 .001*00 O.OOE'OO 0 . 0 0 0 0 0 O.OOE'OO O.OOE'OO O.OOE'OO O.OOl'OO

O.OOE'OO O.OOE'OO O.OOL'OO

>.00('00 ).00F<00 ).00C*O0 J.OOt'OO ).ooe<oo

O.OOE'OO O.OOL'OO O.OOE'OO O.OOE'OO O.OOF'OO

O.OOt'00 O.OOt O.OOE'OO O.OOE O.OOt'00 O.OOE O.OOt'00 O.OOE O.OOE'OO O.OOE ( I .OOf '00 O.OOF

Table 3.2 Dose equivalent per source neutrons and attenuation factor of secondary gamma rays in water (1/11).

ft(CH) N »n.f

10 .0 * . U E - 1 ? 2.O5E-OJ

ATt.F

2.QBE OJ

H A t l . F

4 .05E- 1? ?. 13f OJ 4 . M E 1 ? ? . ? « - 0 3

1.*«E 1? 7 . 7 H - O I

0 . 0 S.16E-1J •».?( 4 . H E - 1 3 l . O O E O ! J .?4f 1J 1 . 0 J E 0 ?

110.0 1.5 3E - 1J 9,74E-OJ

MO.O B . U E - I * B.J2

1.10E 1J t.JOE 0 I . W f 13 • . J 7 E - 0 ) 1 .4*t - I I 1 .«0E-0J 1.401-13

1B0.0 4.J2E-14 190.0 J . t a t • 14 700.0 3.15E -14 210.0 1.14E-M JOO.O ? . • * € - ! » J10 ! . 0 ! E 03

1 , J « ( O J

J1

33 34 31 3ft IT Jt 39 *o 11 47 *J «4

610.0

100,0 B10.0

910.0 1000.0 1100.0 1700.0

1

.

1

3 2

.fflf

.12E

.4JE

.04E

. . «

• IS

tb

\T • \T

• 1 1

II

• i .

1

7

b

.37*04

. , * • „

1 .bit -01 1.02E 05

> .WE 06

i.o?r-i6

i. r « • i ?

J.Uf IB i.riE is

l.fBl 19

7

>

a

1

. 70E

,HM

. M l

. 311

01

*

01 06

06

B

1

1

1

• 9?t U

.101-It

.b?F IB

.4t>{ IB

• 4 ] t 1 9

).01(

t.OBt

04

OS

01 06

Ob

1 7

T

7

I

.2 at

. , «

.10t • 11F

.Obt

• lb 17

1?

• IB - IB

»

1 .

* .

t. * .

. .

bvt tH

J t f

07E HE

i n

•04 04

05 Ob

0?

I . t .

' •

1 . 1 .

7.

ME

n.

sot

B4(

I * • 17

it

• 11 19 19 JO

?:"[

4 . 9 I E

6.3OE

04

•04 •04

01

01

-06 06 Ob 07

- 1 9 -

.JAKKI Dale-"(',„],. iM OOH

Table 3.2 (Continued) (2/11]

tS.O l.Otf- (7 J.ME-OJ 4.401 17 7.88E OJ

7S.0 10.0 JS.O

1.87.E-1? b.SbL OJ 1,8 I f 1? b.7-»f OJ

17t 17 S.7U OJ

7.*0E OJ 8 . O I OJ

T.btE-CJ 0.7U-O5 9.S0C-0J

4S.0 e . O b t - U 9.4JL OJ 6.001-13 S.7JE OJ 7.9*1 IJ 1 .OH • t . Q S E U 1.DTE 07

60.0

70.0

ao.o 10.0

?.7fl( IJ I .OJt-0? 2 . l i t . - IJ 1.011-0? I .ME- IJ 9.8SE OJ

J . 6 0 f - I J i.ru u 1 . 1 1 1 - IJ I.66E IJ

I.Qbt 0? J.J6f 1

I.OSt 0? '1.b8[ 1 t.o?F 0? 7.o/t i

1.0H-G? J . i I .O;E 0? I.O'jf -0? 7.0 I.OH 0? ),•>

Bit IJ I . I l l 07 J . i O E U 1.011 07 ?.bJE U l.ObE 0? 7.00E U 1,0?t-07 I .S4t - IJ

l . U f -0? 1. IJL07 1.IDF 0! l.Obt 07 1.0110?

SOt 03 9JE OJ

i - . o .o r . ! J t - 1

6.H7E OJ 1.101 14 6. 'bt Ui 1.6M - M 6.641 - 0 ! ? U 14 6 . 1 6 ( 0 3 fcfl ' 14 l.»*C -OJ

70Q.0 ? . * J t - ) * i . *J i OJ

7. t \ t OJ

1. B?f 0!

1.701-01

7.^91 • 14 S.41t UJ

K.t*l IS ?,.Sit OJ

I .1JI IS 1.09F <JJ

7 , 1 l l ; i •> . J61 01 1.101 01 1.87F 14 ».7/(

JOO 0 S.7BI•

JSO.O 7.iTl

400.0 1.79E 4 S 0 . C 1 0 0 . C SSO.C

S ? . » l t 0 ! IS ?.IBt OJ 1 . 9 J I 01

I . 1 B ( Of

j . r ^ i - i * t.irt-o* I .471 U 7.41( 0*

' .OSl 1? 1.401-0* 1.441•17 I.1?{-OS

J . 4 I I 16 i .rat ib

• . Sit 0* J . l i t 04 1.11E-04

M l f t lft t . l l E 04 I .47t• Id 3.b8( 04 7.68E 17 1.(,6f 04

7.401 I . 701

6 l . . 'SI 0* b 7.771 04 7 l.JAt 04

I , 9) 9.441 4.74f

I.OKI 04 i .ai i o* t . lot 0«

7 . 6 7 1 • 1 7 1.401 - 1 /

?.01F- 1/ f.. U i OS I .bl i . l o t I . ' J . 7 i f os a . J '

4 . 1 7 1 o s i . m i 7.141. 0'. S.'tSI 7 . 1 6 t OS

B.7 i t :« ; . b t i 3 .99! • IB 1.471

BSO.O 4.Q7C 900.0 7.19C-9SQ.0 I . l i t

r.trt

J. ?lt 0/ 7.4JI

t.Onl Oft

?.0?l 19 I . JOt Ob

1 .411 ?n 1 . JJI 07

Table 3-2 (Continued) (3/11]

3.J2F.17 7.SH-17 1.9IE-12 1.S7E1? 1.2U-1? l.OOE-17 S.19t U 6.8JE 13

J.S1E 13 7.b0 l - IJ I . 9 7 C U I.5U U 1.17E IJ

1.1U-0J 7. J 41 -1 7 l..'St OJ

4. - )U-0J J.SOE 17 S.J61 01

9.1DE03 9.99E03 I .071-0? J .11E0? t . U t 0?

1.14E 0? 1 .HE 0? 1.06E-0? 1.011 0? t ) . 4 ? E 0 i

I.Sftt 17 1.76F 17 l.OJL 17

J.S1E-13 7.17F-1J 1.97E 13

l . U t 07 l . U t 07

1.041 0? 9.B4E GJ 9.14E OJ

it'O • 110.0001 a n . r

-1? 1 .11E03

1? S .b9l 03

•7 I.O7EO7 W 1.0"*l OJ 17 1.17f-O7 11 1.7OFO7 U t . !7E 07

." .9 ' f 17 1 .J9F 03

1.7 7F-17 S.11101

I.OSl 0? 1.13F 07 I . 7 U - 0 ? I .ZJF07 1 .7SE 07

8 . 7 H 1 7.IJ) - i

1.18E 0? l .«7 l 1.171-07 7.SOt i . O ^ E o? i . s ; t

1.19EO7 1.17( 0?

( . 1 1 ! I ? 1 . 4 S t - 0 J

l .eJf OS

.ant 07

B.m-u 7.171 1]

1 - IJ I.OJf 0?

7.OOF 1 . 6 J E -

1.0 ? . / ? £ •

1.0 S . H I -

15 t.uroj

It 5 . 5 ? E 04

1.06E-4.B7E

610.0 1 .OtE- I

).O 1. HE

IOOO.I

1100.i 1700.1 1 300.'

S.8U 1.J4T

14 J.SJE OJ

70 I.OHt 07 4.JOt 71 J.SJC 71 J .O l l 0« 4.041 7? B.flO 7? B.OJt 09 I.S.'I .'? ? . l \ f

I.6SE IS 1.071 OJ

1 . r 7E 04 t .SOt-17 i . u t 04 4 . 0 ' , l ' l 7

V . 7 H 0 S J . I 7 I 17 S.tDt OS 1 . 6 b l - | /

S.4SE0S l .SJ I 17 ] .0?f OS T.OOF IB

1.031 M S.bkt 07

7.781

I. ior 4 . 1 7 E

4 . B S E OS

7 . J J I OS

I . 101 OS

4.b4l-70 I.HBI 70

?.J«t 0/ i . t i t 0/

I.J11 71 1.041-OR S.7M 7.4»( n 7.47C 09 B.'lht 4 .SUI ?J \.?S\. 10 1 .SOt

«.MF-1S J . » » i - n 1.Qbf IS

4.671 01 4-OStOJ

S.7JI-0S l . )9 f OJ t . 7 U 04 3.?4l 0* I.SOf-04

1 -HOI 17 3 .1

S.S

: os

•or

J.04F ?0 f.rni 71 1.0«[ JI

1 .071 07 4.44E OB 1.9Se OB * . S 7 E 09 1.-.71 04 7..'7t 10 4.1,11 n

- 2 0 -

.) AKK1 - 1 totc'/Codo 94 - 003

Table 3-2 (Continued) (4/11)

1 0 . 0 5 . 5 1 E 1 ? 1 . 9 6 E

1 5 . 0 3 . 9 S E 1 2 6 . 3 B E

1 9 ? 0

000) H Atr.r H Aii.r

9.4JE 12 1.501 03 9 . 6 0 1 1 ? 1 . 1 1 E 0 J

4 . 4 1 E 1 7 7 . 4 3 1 - 0 1 4 . 4 I E 17 7.4»E 03

0 . 0 1 . T 2 E 1 7 1 . I I E 0 ? 1 . 7 S E - I ? 1 . I S E O ?

5 . 0 1 . . J 5 E - 1 ? 1 . 1 9 C - Q 2 1 . 3 T E - 1 2 1 . 7 2 E 0 ? 1? 1 . 2 9 E 0 2 . . 4 i E 1 ? I . J 2 E O 7

0 . 0 7 . 1 * f l i 1 - 7 9 E - 0 2 •13 I.JOE 07 ?.?1E IJ l . J J E O ? M i f - I S 1.4 IE 02

8 0 . 0 2 . 4 H - 1 3 1 . 1 2 E 0 7 7 . J S E 1 J l . l

100 .0 I . 7 B E U 9 . 1 6 E 0 1 1 . 2 O E I 3 E.r

2.79E 1J 1.OBEt.? 7 .30E-13 1.10E 07 2 . WE-13 1.04E-02

1 1 0 . 0 5 . 2 O E H 6 . 3 1 E 0 J » . 7 6 f - 1 4 S . I / f O l 4.rt£-0I J.1H-0! j.m-0)

i . 4 o c - i : ?.roc-os 1.03E 14 7 .74E-0J 7 .5 IE IS l . H E O J S.57E-1S 1 . J 0 E 0 3

* ! i « - 1 6 4 .31C-04

WO.O 1 . 7 7 E 1 4 3 . 6 7 E 0 1 1.5 Jf 14 J.77F OJ 1.J7E- 14 2. H E 03 180.0 1.J 7E • 1 * 3 . t B E - 0 1 1.16E • 14 7.T4E OJ 9.BBE-IS 2. J 6 t 0 1

J i t - O J 7.44E 1) 1 .98f OJ 190.0 1.06E-14 ? . r S E 0 1 I . 8 J E " t 200.0 8.7BE-1J 7 . I B t 01 6 .10E' 1 750,D 7 . S 3 E 1 S 1 . I 1 E 0 1 I .91E 1 100.0 1.0 150.0 I . b

4 1 E 0 S l . I S C - i r

V10.0 l.ME 600.0 1.?tE 610.0 *.b7E

S 3 . 2 6 E O 4 S . J 6 ( - 1 9 l , * 1 f 06 2.17E 19 t» S . / I E 0 7 IJJM1

l.OSF 19 7 . 8 7 1 Of 4 . l 6 t 30 1 . 1 7 E - O 7 9 1 . 4 0 E - 0 6 1 . l \ t • 1 9 S . J8L-O7 6 . I S t - 7 0 1 . 9 7 E - 0 T ? . ( * ( 70 » . 9 ? C 0 l I . 7 0 E - 7 0 ] . I 3 E 0 1

08 r . T ! E 71 7 . 8 7 E O I 10 2 . J O L 0 ? 1 .B7E-7O 7 . t * t O 8 S .71E 71 7 . 1 6 ( -

73 7.JSL-10 l.UE-M T.tti- 1 I

4 . 8 t E 71 2 . 6 6 C - 1 0 1 . 7 J E - 7 1 7 . 4 9 1 11 J . 1 8 E - 7 4 I . 1 K - 1 1 8.71E7S 6 .19E17 S.731-76 5.72E13 J . 9 6 f ? 7 *.JO£-I«

Table 3.2 (Continued) (5/11) OOSF EQUIVALENT AH0 A T I E N U » f ! O H FftCtOf l

50.000) A1T.F

45.000) A1T.F

40.000 - JS.OOO) H ATi . r

I .08E I t 2 . M E O 3

( 35.000 N

I . 1 6 E 1 1

10.000) A U . f

2 . H E 03

15.0 4.S0E-12 T. T2E-0J 70.0 ] .30E 17 I . 0 0 E 0 7 3 . J 6 E 1? 1 . 0 4 E 0 2 I .79E- I? 1.70E-0?

30.0 35.0 40.0

SO.O

to.o 70.0

I

4

3

.86E-17

. 4 4 E 1 2 - I 5 E I ?

. 1 5 E 1 J

. 691 -13

. 1 7 E 1 3

1.2BE 02 1.34E 0? 1.40E 0?

I .36E 0? 1.791-0? 1 . 1 7E • 0 2

1

1

t

7

4

3

. 4 4 E -

. | 4 £ -

. o / t -

. - .at-

.03E-

17 12 17

13 IJ 11

1 1

1

. l o t

.351

.41t

.36E

.771

. M L

07 02

•02

• 0 2

02 -0?

1.88E 1 . 4 4 t

l . l * E

b .98C 4 . 4 8 E

2 . 9 1 E

• I ?

I? • I ?

13 13 13

1

1 1

1 1

1

. M

.171

. 4 ? E

. 3 S E

. ? s t

. M E

• 0 7

• 0 ?

0?

-07 07

-0?

1 . 9 S E -

1 . 4 9 E -

I . 1 4 r -

7.O2E-4.38E-7.80F

17. 1? 1?

11 11 11

I

1 I

1

1

1

,m-o? -47E-0? . «J f -0?

.3TE-0?

.73EO7

.07E-0?

2 . 0 6 E 1 2 1.47C-O2 t .SSf 12 1.501-0? 1 . ) « [ - ! ? 1.49E 0?

7.09E I I 1 .40EO? 4 . 3 7 E U 1.7JE 07 7.69E-11 1.641-07

90 100

ISO

170 ISO

.0

. 0

.0

.0

1

i

8 6

. 4 7 E U

- ? 1 E - 14

. 7 6 E - 1 5

- 3 0 E - 1 S

. S 6 E - I S

a.

2 .

1 .

1 .

79t

93E

9JE

01

03

• 0 3

1.3*F IJ

1 . 4 7 F 14

7.J7E IS

B..WI

7.SSE

1.b3f

OJ

03

03

1.761 IJ 7

1 . 2 4 E - U 7

5.97E-1S 1

.BBE

. 16E

.J3E

•OJ

0 !

• 0 3

OJ

1.16E

3.37E

l .OOt-

4 . S S E -

11

14

I t

7

I

1

1

. 1 S E 0 3

.79E 01

. 76E-03

.on-oj

1

2

r

i

.O tE

.BJE

.4 7F-

. 3 0 E -

11

14

IS

I S

fa.77E

1.7U

1.J6E

7 . S 4 C

01 Of

OJ

-o«

7SO.0 4.89E-16 1.28E04 100.0 1.49E-It 1.O2E-O4 3SO.0 3.37E 17 J.O9E-O5 400.0 7.34E-18 S.9SE-0(> 410.0 1.66E- 18 7.S7C-06

blO.O 4 .691 -71 I . 5 1 E 0 K

8 0 0 . 0 6 . » H ?J 3 . 1 4 1 - 1 0

1 . 9 S E U 1.8*1 05

*.40F M 6.90F 0?

7 .701- 16 1.08E 04

, ^ 6 t - 0 7 9 . « 6 E 0 S

I.OJF ?i J.JTE 09 t . M E 77 7. I6E 01

8 .07 t 11 7.41L 11

1 . l 4 f - 1 6 6.59E 05 7 .O9F- I7 1 . *9f -05 J.63E 18 1.S1F-06

1.49E-14 7.39E 07 J.40E -70 fc.?U OS

22 S .111-10 ?1 l.Sfcf 10 74 4.S3t 11

1000.0 7.6JL-7S 7.OOE-12 9 . 7 6 1 7ft 7 . I B t 1 1

7 . 1 4 F 75 1 . S 3 I I ?

6 . 7 7 E 7k 4 . 9 1 1 1 3

- 2 1 -

• IAKRI Dale/Cull. 9-1 003

Table 3.2 (Continued) (6/11)

< iO.ooo RUN) H

S.O l . J t f - 11 A l l .T

?.57f OJ i.«5E n : . 9 j t 01 A l l . I

l . J i f OJ 7.1JF-

I.JOf

7 5 . 0 so. o

7.»9E ? . t « t

l .»*E 07

I.SJE 0?

J . 0 U - 17 ?.70( 17

J.161-1? 7.7BI 1?

+.781-1? 1.561 0? 5.55E 17

J . J 6 E 1 7 l . M E - 0 7 J .T5C17

3.*OE-13 l .?*E 03 7.59E17.

*O.0 1.20F 1 ! 1.5710? »5.0 9.19E IJ 1.*BE 07

I.27E-1? 1.561 07 ! .?«£ 1? I . 6 0 E 0 7 I.76C-17 i . k J I - O ? 1 • l i t 1? 9.7TE U 1.SH 07 9.I9E IJ I.S7C0? 1 . i l l 11 l . J« (O? 9 . ? « - l 3

4.J1E 1J 1.711-0? t.85E 11 1.1 IE 07

*n.F Til-01

I.O/I 0?

.«?l 0! I.V.7E 0? I . t i t -0?

1*0.0 9 . j ? [ - I S 1 . * 9 t - 0 J

170.0 7.5OE- 15 1 . 7 1 E 1 5 J . 9 '

I . 9 4 E - U

1.7»E1S ! . 9 » l

190.0 1.05E- l i J . 0 U - 0 * 700.0 6.S9E-16 7.191 0* 3.9*f 1b 1 . 7 8 ( 0 *

500

I9E-7O 1 .511-0 '

5 . J IE J1 t , ] ? r OB

600.0 l.ril !1 «.961-09

700.0 I .HE 77 * . bf -10 ?%a.o i . i n - 7 ] t .«ot i o BOO.Q 8. 4t - ?• * . JW •) I

R50.0 7.IHF ?• \ . l t t 11 900.0 b. tTt ?5 « .3 fF• 13

iflf 09 1.671 71

7.1*1 71 1 • I J I • 10

1.79E 09

?.71f 71 1.7.M 10 7,681 ?t 1,971 • 11

tu

iJ t 71 1.971 ,5f •?? 1.701 51 71 J.bBt

1.71t 10 ? ,» r f 7J 1.1*1 J.81E 11 b.n<il ?4 l.t,7( • 1.711 11 ! , * « • ? * l . i f t r

1000.0 'i.bbl ?b

i ioo.o "i .ost ?r

.SOl U 1,8M 1 . 401 * .fin

t.J*> 17

* . l t t U 4.,'If 1*

i.;'vt i? ». Iflt U

I 1? I .bb l J5 t . 7 J t ».0'. l IJ 4.9KI ?b * .01(

Table 3.2 (Continued) (7/11) DOSf fOIIJVAirHT -M(D AUtHUMldN M C I OH / fcATf

IHCI Of HT HfUIBGM fHfBCV(H(V)

( l i ' . iOO - 1*.9OO K<.C*I H A i r . r

10.3 1 . JOF I I 1.07[-O7 1S.0 fl.iaC•17 1 . ibE 07

5.56E 11 1 . IBE07 5.71E 11 ( . t l ( 0? 7 . ? J t I l 1 . 9 0 ( 0 7 7 .1M 11 I .Sbt 07

I . 7 6 E - I I !.*0t 0? ) . ? ? t - l l : . J * E 07

i.ioi- u i.wro? b.STt IJ 1.36t-0!

f.0.0 l.SOt- U 1.0*t 07

80.0 1.0H-1J 5.6iE OJ

1.071-17 l . ? 7 E O 7 f . 3 l £ - I J 1.5Jt 0? J.»7E-11 1.1bf-07

1.7*F 1? ?.UE 07 t.S*t 11 t.at * . 6 9 t - U l . *?E-02

1 . 19E 11 b.JbC OJ 1 ,tflt 1] ?,9fll-01

I.OU /.*?E J.S9E.

1 .SlE-O? 9.5AF U 1.66E 07 1.5B! 07 6.751 -13 l.»»E 07

U I . l i t 02 1.4bE 11 I.Ob

IJ 6.51F OJ 1.0*1-11 \.fOf-US

170.0 I.7TE-1* t . l t t OJ

1J0.0 T.TSt-IS 1.08E 01

no.o i.oit is s.bOE-o*

160.0 1.91E-15 t.OtE-Ok

170.0 t.TJE- I I ?.9«t-0»

7.50C OJ 1.5TE-

1.7U-15 J . tb t -0* I.IU It 7.511

JOO.O 1.07E 1T T.STt Ob 150.0 3.1OE-18 7.UF 06 *00.0 *.65E 19 S.I("( Qt

bOO.O 1.66E 71 6*10.0 M.1TZ 77 700.0 I.Wf !? TSO.O J.7U-2J dOO.O 9.07E-7*

950.0 7.211 75 1 .bb( 17 1000.0 t.69E>?6 5.5«f t J 1100.0 l . l t f 77 b.«11 U 1700.0 6.571 -7B ?.B«f - 15 1 JOO.O f".75l .'•* 1.071 • 1 \

1.T9E-W l.J»E-0^ J.flAE- IB ] . •> / ! 06 «.9?£- 19 J . I9 I 0$

6.051 75 * . 5 t l 17

1 . l i t 7b 1.8JE 1J

J.!1E 17 ?.<Jf OS 7.09E I I 7.JOF-06 ).b«E-ia 7 .7K 06

l .07E- r»

7.8»F-?(j

5.1H H 4.111

1.911 75 1. 5.09E J& • -! .?« 7' J.«5

F 1? I 11

i . j ? r - w ).o;t o i !."49l 18 M i l 06 5.r* t - i9 7.85f-or

i .? r t - i» !.?ot-or ?.I9E- 70 1.181 08

t . t r c - ? i i..'?to» 1.55F 71 «.77E Ot 1.70E-77 l . U t 09 *. I»E-7J J.ri l-10 Z.1U-Z1 1.011 10 S.71I ?• 7.n\t tt 1.7Bf ?« T.t*\ IJ l.ifcf ?5 ?.1BI 1 ! r.?U ! l 5.9M U i.»n ?* i.*rr u l . l b l 77 1.70f 1* f . 101 79 «.9<iE I *

- 2 2 -

.JAKKI- Date/Code 94 003

Table 3.2 (Continued) (8/11)

R(CMI

10.0

[ICI0F.KT KEUtROH | 37

* . / 0 0 >.490i

l.91f•11 I.6Jf 07

Alt . (

1 5 . 0 1 . l o t 11 7 . 1 7 E O ? I4E • 17 1.651 07

i.oic• n * . ib i oj I .96*-JI I.tat-02 l . l i f - 1 1 ? . 1 * E - O ?

3 . *9 f - 11 7 .99E03 7 .J* f U t .9«t 0? 1.I7E-11 7 .4 IEO?

1 5 . 0 1 . 7 7 t • + 0 . 0 1-7OC-

i .m-oz 1.65F 0? 1 . O 5 E - 1 ? 1 . 4 0 1 - 0 ?

1.47E 1 ! 1 .«9 | 0? 1 . 7 5 E • U 1 .77E 0?

l . J t t - i ! l . 5 5 f •< 9 . 0 H - 1 3 i . J ? f i

1 .561 - I I 6 - T . K 0 3 1.74E- 13 5 . U I 01 1 . HE 13 4 . fc l ( -01 J . I0E - tJ 4.97E-QJ

90 .0 4 . & K - 1 * J .J3£-03 100.0 7.6OE-14 7.J9E-Q1 n o . o i . 6 s c i * i.rocos

7.10E- U I .611 03 t. ut-ci 1.0/ f l« 1.1 I f 03

1.70E-I I . W E I

1.4*1-15 J . 1 5 E 0 4 a.OOE- 16 1 . M t - 0 « ?.?«t 16 1.19E-0* 7 . 1 6 E - U 1.46E 04

JOO.O J50.0 400.0

7.J1E I I 4 . 1 1 C 0 t

00 0.001*00

1.29F 70 ?.?t f -OS 7.OBE-72 4. l i t 10 O.OOfOO 0 .00t«00 O.OOC'OO 0 . 0 0 1 * 0 .001 '00 O.OOE*

fSO.O I .77E 74 400 .0 7 .0<t -?4

OOE'OO O.OOE*I OOE-00 0.O0EH 001*00 O.OOE»I 001 '00 O.0OE*i

900.0 1.231 0.001<00 0.OOE'OO

1000.0 7.00E ?f 5 .9BE-U ?.J*t 79 1100.0 4 . u f 7S 4 . ? U 1 5 * . 1 O t l O 1700.0 Z.**E 79 3.0JF lb 7.31E 11 uoo.o J.SOE -30 ?.i;r w I . J P I - »

r,oir !» l . " > 4 t ? 0 ? . 7 1 1 - 7 1

0.OOE'OO O.OOt'OO 0 . 0 0 1 - 0 0 O.OOE* 0 . OOE'OO O.OOE-00 0 . 0 0 ( < 0 0 O.OOE' o.oot>oo o.oor-oo o.oor«oo O.OOE»

Table 3.2 (Continued) (9/11)

10. 5

70.

)

0 0

0

0

2 1

7

' " !

.WE

.13E

-11 -11

-17

• i i

ATT

7.61E

1 . 9 H

1.O1E

.F

0 !

•07

•07

<

2

4.

H

77E

17E

-11

1?

13

1

1

. » ,

.91E

.on

• 0 !

07

07

1

7

3

t|

.71E

.06E

98 E

11

17

U

2.

1 .

. .

A T . f

E 0 7

E-07

E 03

1

7

3

.7

. 0

E

9Jf

11

17

-.3

,.,„

9.60E

.F

0?

-0?

-03

H

l . ? b f

1.9*1

3.891

11 •11

17

11

7 7

1

A l l

' 7 "

.77E

,F

07 •07

•0?

•OJ

80.0 *.<)ZF- 1* J.70E 03

100.0 I .SiE-14 1.80E 03

5-Sjf 14 J . m 01 i.K.1

1 . 8 1 E 1 4 1 . 8 1 E 0 J 1 . 7 9 1 -

3 . b « ( 03

1 . 7 7 E 0 3

-14 3 . 5 b f 03 1 . 6 V E - l * 3.4VC -14 7 .49E 03 3 . 1 7 1 1 * ? . * 4 t • 1 * 1 - 7JE 03 1 . Tbl • 1 * 1 ,?0E

* " t • 1 5 1 . 1 7 E - 0 1

140.0 ?.04f•15 J.«1E-04

150.0 1 .?0E-15 7.64E 04 1 . I U - 1 5 7.67E-O4 1.16E-15 ? .59t -04 1.16* 15 ?.54E 04 1.1*1-15 7 . 4 1 ( 0 *

190.0 l .SOf-16 5.78E 700.0 B.97E 17 5.5 IE 750.0 7.73E-1S *.»7E 300.0 i.oir in 5.3« 350.0 0-00[*00 O.OOE1

400.0 0.001«00 O.OOE1

450.0 0.001*00 O.OOE

i iO.O O.OOF'OO O.OOE' 700.0 0.OOE'OO O.OOE1

750.0 O.OOf'00 O.OOE1

BOO.O O.0OE*<10 O.OOE1

1000.0 0.001*00 O.OOf' UOO.O 0.001 tQO O.OOf' 170U.O O.OOf *00 O.OOF *

0.OOE'OO 0.OOE'OO 0.OOE'OO O.OOt'OO 0.OOE'OO O.Q0(>00

O.OOF*00 O.ODl'OO O.OOt'OO 0.001*00 0.OOE'OO O.OOE'OQ 0.OOE'OO O.OOt'OO

O.OOt'OO O.UOI'00 O.OQt'OO 0.001-00

0.OOE<00 0.OOE'OO 0.OOE'OO 0.OOE'OO 0.OOE'OO 0.OOE'OO

O.OOE'00 0.OOE'OO O.OOE>oo o.oor*oo O.OOt'OO 0.DOE'00 0.OOE'OO 0.001*00

0.001*00 0.OOE'OO O.OOt'OO O.OOF >00

1.47C I t * . 9 t f < I . 53E- 17 l . I O E i

O.OOE'00 0.ODE'00 O.OOt'OO O.OOE'I O.OOf'00 O.OOE*00 O.OOf•00 O.OOE<< 0.001*00 O.OOC'OO O.OOt'OO O.OOE•< O.OOf'OO O.OOC'00 0.OOE*00 0 ijtiE*4 0.OOE'OO 0.OOE'OO O.OOf *00 0 OOf *( O.OOf'OO 0.OOE'OO 0.OOE'OO O.OOF*^ O.OOt'OO O.OOt'OO O.OOf<QO O.OOE•( 0. OOE'OO O.OOf:* 00 0 .001 '00 O.OOE •< O.OOt'OO D.OOf*00 O.OOt'OO O.QDf'f o.oot<oo o.oo(*oo o.oof'do o.oor*<

O.OOE'00 O.OOt'OO O.OOE'00 O.OOf' O.OOE'00 O.OOt'OO 0.OOE'OO O.OOt' O.OOE'00 O.OOt'OO O.OOF'OO O.OOf'1

- 2 3 -

.IAKKI 91

Table 3.2 (Continued) (10/11)

l O S t t Q U l v A l I K ( 4KD l l N U A l I O N I A

1.0 *i.9Jl 11 0 .0 7.901 11 1.0 1.?bt t l o?

J.71E 12 l . t fF 07 J.?*t-1? 1.<m I? l.fOl-O? l.-m-i? l.JU-12 l.Wf 0? 1.731 I? a.161 l i 1.7fE 0? S.16E 11 *i.ibl- II l . O Y F 0 ? •*.»( I I

' 0 . 0 1 -QlE • U

.BBE 11 7. . 7bF 07

I . ?Jt 11 J . J 6 [ 07

'( 07 I . l i t - 1? 1 . B J E 0 ? B I O ? a . H E u I . ^ S E o? BLOT, i . I K U 1.J6E 0?

1.111 1? T.901 1J 1.11F-1I

3.J1E-O7 7.0JE 0? l . m - 0 7

1 . 1 0 1 0 ? r.m-oj

l . i a t - w 7.eat u s.«ot -u i.ut-ts i.*»u u 1.01E-1J

100.0 I . / ^ F - 1« 1.611 OJ O.OOE'OD 0.00[*00 O.OOE'OO O.OOE'OO

. OOt'i

.00E«

1J0.0 ] , J U 1 5

HO.O I . l t f

1 7 0 . 0 3 . f i t • 1b 1 . 1 IE 0 '

1 8 0 . 0 7 . 3 B E - 1 6 I.**

1 9 0 . 0 1 . 4 7 E 1b 4 . 9 i

O.OOE-00 O.OOC O.OOt'OO O.OOf>00

JiO.O JOO.O

O.OOE'i O.OOCi

9S0.0 O.OOS '00 O.OOf'00 001 >00 0.001>00

Table 3.2 (Continued) (11/11) Al tENUA! l i )N fflC

INCIDENT

H ( C H ) li

i.O 7 , ^ H 1 1 6 10.0 ?.901-11 1 I J . O i.m -ii a ?0.0 l .*f i t 1? T.27\

1.4»t-01 ?.90t 11 ? . W 01 7.HBE I I 1 . ?Jf 01 t . m - o i i . u t - i i 1.731 01 i . i 7 t i i t . i s t - o i I.Oar 01 1.40F 17 1.901 OI VJ6E 1? J.89t 01

i .ni n a.m-oi s.i*t i? d.iar oi

10.0 Ji.o

10.0 bO.O

BO.O

1

1

*j

. IBf

.m

.101

, * ? E -

M

l i 11

14

I

i 7

1

. *£>

. "ft

.09

1 *

0? •<?.-•

07 07

0?

I.fl1[ 17 Kl f l f 1?

1.90F 11

•>.*0E 14

S.?7E 0? 7. Ul 0?

* .6 iE 07 l.»OI 07

1,.*7F 0?

1

i.iil i .ait

•> i t t

-17 • i ?

• 1 3

• i i

i *

i i.

8 S

i .

?bl

191 •m

O i l

•01 01

• o : 0?

• o :

1.171

j .nf. 1 .B9t

17 i?

u •u

14

?.

i . i.

6 .

Oflt 01 bDF 01

69E 01 71t 01

71E 07

1 1 .

3 . 1 .

5 .

B7E 1 7E

B "

JBt

-1? - 1 !

-1J

14

1.04E 7.771

>. !«

0 0 01 01 01 01 01

01

iio.o o.ooE'OO o .oa t ' 00 170.0 O.OOr^OO 0 00E*00 iio.o o.oot'oa a.ooF'Oo

no.o o.oot'Oo o.oot'OO

o.oot*oo o.oot *oo

O.OOf>Ofl Q.OOl'00

O.OOE-00 O.OOf'00

Q.QOC'OO O.OOl'OO

O.OOE'OO O.OOE-00

O.OOf'OO O.OOf'00

O.OOl'OO O.OOF*OI O.OOE'OO O.OOI O.OOf'00 O.OOI O.OOf'00 O.OOI

1T0.0 O.OOE'OO 0 OOE'OO O.OOt'OO 0 OOF'OO 9aO.O O.OOf'JO O.OOE'OO D^OOlr'OO 0.0OE*OO 190.0 O.OOE'OO O.OOE'OO O.OOt'OO 0.001*00 ;oo.o o.oot*oo o.oor*oo o.ooi -oo o.oot*oo

i.O0E*O0 O.OOE'OO i.OOt'OO 0 .001-00

O.OOE'OO O.OOt"00 O.OOt "30 O.QOF'OO 0 .001*00 0.001*00

joo.o o.oof*oo o.OOE'00 o.oor*oo o.oot*oo i.OOE'OO O.OOf<00 O.OOE'OO O.00E*OO O.OOt'OO 0.00F*OO

OO.O O.OOF-00 0.0OE*O0 IOO.O o.ooi-oo a.oofoo

O.OOt'OO O.OOE'OO

' 0 0 . 0 O.OOt*00 O.OOF'OO

O.OOl'OO O.OOt O.OOf '00 0 .001 '

O.OOE'OO O.OOt

O.OOT >00 0 . 0 0 1 '

O.OOt'OO O.OOt'OO O.OOt"00 O.OOC'OO

O.OOE'OO O.OOf<00

o.ooi'oo a.oot*oo O.OOt'OO O.OOE'OO O.OOt »00 O.OOt'OO O.OOE'OO O.OOE'OO

O.OOl'UO O.OOt'OO O.OOt'OO 0.001*00

o .oor '00 O.OOF'OO O.OOt'OO O.OOF'OO o.oo i *oo o.oot 'Oa 0.001'00 O.OOl'OO

O.OOF'OQ O.OOE'OO O.OOt'OO O.OOt'OO 0.001*00 O.OOt'OO 0.001 >00 Q.OOt *>00 0.001'00 O.OOf'00 O.OOt-00 O.OOE-OO

i j o o . o o . o o i - o o o . o o i - o o o . o o i ' 0 0 o . o o i - O.OOI'00 O.OOt' O.OOt'00 O.Ool

- 2 4 -

J A KRI I )HU</( 'ode 94 003

Table 3.3 Dose equivalent per source neutrons and attenuation factor of neutrons in ordinary concrete (1/11).

DOSE EQUIVALENT AND ATTENUATION FACTOR

1 (400.000 - jn.ooo)

RCCHJ M Atf.l 1.0 l.?Tl OS 1.1BE<00

10.0 J.70E 09 l.tOF. *00 11.0 1 . iJE -09 l . T H ' O O

no.000) <J10.000 Alt.f H

Hi .000) JlJI.f

100.000) » J ! . f

I JOO.000 • 7n.OO0>

1.1*1 09 i.bOt'OO 1.10E09 l , m « 0 O

71.0 6 . lO f - to 1.90E'00 10.0 * . I 8E 10 1.9?C<04

J.7BE 09 I.17E 09

l .VH 'OO 1.9U <00

.nt-oo ,IOE*OO

J.?Ot 09 1.*B1 09

.MF'OO

.IIE'OO 7.911 09 1.67000 l.JBF 09 1.7*1-00

.•)![•00

.OIE'OO 1.4/F io i . t u - o o 3.HE 10 I.97E*OD

41.0 1.B6E- 10 10.0 1.50E-tO

1.70E- tO HE-10 1.66E-00

7.71E10

I.J6E 10

7.Q1E 10 l . t f f * 0 0

1.79EI0 1.6.0E-0Q 1.0?E- 10 l .HE '00

.I if - II 1.

7.BTE-I I l .?9(<00

.271*00

.m»oo

.0*E»00

.611-01 ft.«6t-0t r.*u-oi 6.WE 01 1.61101 4.97EO1

10.0 6.ISC- 12 to.o «,r»f-1? fO.O J. foe- 17

190.0 7.7)[-11 * .06t-0 l ;oo.o i.m- 17 j.ut-oi 770.0 1 .Oft 1! 7.SJE 01 7*0.0 b.aot-II l.flt-01 760.0 4 .7 IL -1 ! 1.I4C-01 ?80.0 7.681 1J I.O^t 01 JOO.O I.fn )} T.ift 07

IE t ? 1.90E 01 I E - I J J . i / 1 0 1

J . t U O l J . l » t 01

IE- 1J \.1%1 01 i l l • I I 9 . t ? E 07

1.67E '11 1 . ro t 01 ) . • ! ( IJ 1 . 7 4 ( 0 1 l . \ n IJ l .9 * f 07

i.Ott IJ 1.*H 01 J.09E IJ 1. UC 01 t.91t IJ 1.101-07

i . l tE 1? J.l*f-01 t.?0( 17 ?.**C01 ?.?tt IJ i.ibE-01 *.«lf U I.*?EO1 7 . t * r i J I.07E 01 i .6*t is r . j v t o j

• 00.0 I . ? •iO.O 1.8 100.0 1.1

• 14 1,47E 07 81 14 1.791 J? 1. J Sf 14 1.141 07 * . * * ( • i i a . m - o i I . O i l - 11 1 . ( 0 1 - 0 1 » . ! 0 1 I t 1 . J I C - 0 I

1.4?E-04

7.MF 01

JE • 17 1. 78E 0«

tt IB 1.841 01

* . 8 7 t W

1.11E 18

j.mc u

J.99E 16

« .»8 l - \? t . V t f - 0 * j . o o r i? 7.011-o>

J.OJI I I 9 . 1 H 06

Table 3.3 (Continued) (2/11)

1 R<CM) 1 1.0 1 7 10.0 7. 1 11.0 1 * 70.0 8 1 7.1.0 5 b JO.O 3 7 J i . 7 S *0.0 7 9 «1.0 1

10 10.0 1 11 11 .

11 b l .

ii n. 1b 80.

18 90. 19 •>!. >0 100. 71 110. Z? 170.

74 1*0.

*

b

,

1

;

3 1 1

78 180.0 1

11 770. C t . 17 7*0.0 J . IJ 7bQ. 7. I * 7S0.O 1 .

16 J1O.0

0 110.0 I 600.( 7 610.( t fOO.O

4 M0.(

1.

} .

t.

?.

H 1 IF

J*E 09F ?8f bfF bfF OIF i » t 7 I f f 6 t

J6E

J It 1BE

171 1 .IF B1F in

BoE

B i t H E M l

18f •

J U 70t ?4t ' Oil •

?n

09 10 to to 10 10 10 10

"

11

11 11

, ,

11 11 11

17

u u IJ

14

16 17 I f 18 IS

6

S

t

1

i

M I

.iff

.91F

.911 -89F .811 .801 . fBE . M l

- H E

. *or

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. iBr

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.04h

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.*Bf -OOf , l f l i

.F

• 00 •00 •00 .00 • 00 •00 >00 .00

*00

•00 .00

• 00 • 00 • 00 -01

01

01 01 07 0?

0,

0 4

0 4

01 Oi Ufa

1

7

1 1

t

1

H

.JOE-09 ,S?t 10 .09F 10 . IJE • 10 -WE • 10 - 9 ! F - 1 0 .47E 10 . H E 10 .?6E-11

. O H 11

.0*1 11 - j i r - u

. 1 * 1 - 1 1 -97E-11 .67E-11 •71E-11

.60E-17

- l l £ -11 .79F U .97E i l . 191 -11

. I?E 14

. f fc l l b

. 191 i ;

.6U If

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. Itit - 111

7

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1

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01

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b i t

-(,( 1 I f

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fit . V I blE B6E

bit

781 B7( 1*1 • If 0*)

09 1(1 10 10 10 10 10 10 11

11

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11 11 11 11

17

11 11 I J 1*

1? 1 / 18 ID

8

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1 1

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B9F .97t .91F .B8E 8.1 F TTf

m .66F

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101 l.OIl 9 1

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8

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* ? t (i?F OJf OAf

t ib

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•00 •00 •00 • 00 • 00 • 00 •00 • no

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-*9f -71F . I?F . tbl

HUN

• 0 9

-10 . io - 10 - 10

10 10 10

- 1 1

• 1 1

11 11

11 11 11 17

17

11 1 J 1 J 14

1*

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9

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. 00 ' 0 0 ' 0 0 • 00 • 00 •00 ' 0 0 •00

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7 « 1 1 1 1

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. b * t

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7 f t 68E

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6 ) 1

1M *BI -111 ;•'( 701 J 9 (

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u

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fir 19F

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i.in 1 -OiE 5.6OE 1 I 1

mi S6I 7M

• 0 0

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•00

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• 0 1

01 • 0 1

01 01 01 01 01 07 0? 07

OJ

04 0* 01 01 Ob Ob

- 2 5 -

• JAKKI l)at(vTn<lr 9-1 (KIM

Table 3.3 (Continued) (3/11)

iNL iD tH f HfUfHON

1 R C C

10 IS

75 JO J5

9 Is 10 50

1? bO

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JAKH1 Date/Code 9-1- 00.1

Table 3.3 (Continued) (5/11)

?0.0 5.6BC- 10 I . H E ' 0 0 75.0 J . * 4 r 1 0 1.b*E'00 JO.O 7.71E • ID 1 .5U '00 35.0 1.*f£- 10 1.37E<00

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65.0 1 . 9 5 E H 70.0 1.4<E- 11 75.0 1 0 7 E U

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100.0 2.64C-T7 7.Q7

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Table 3.3 (Continued) (6/11] / COXCtttU f IQlAk HfUllfQtt

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140.0 J .S5E14 5.S4FO3

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1.471-I . j 4 f -r . io i

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1.77E-2O 7.871 09

7.O7E-71 1.53E 09

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J.86E-71 .1.9?( • |7

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- 2 7 -

JAICHI (M ()(«

OOSF EQUIVALENI

Table 3.3 (Continued) (7/11)

( 1 7.500 14.10 !<CHf M ATI . f

5.0 / .90E 04 1 . t * f <0l

B . 1 9 0 1 A l l .F

7 . 4 7 1 . 0 0

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t.7Sl 10 I . t l l 1 , i ) l l 10 9.90E 1.07E 10 7.-J5E

1 . J 5 F * I . ' . 'OF*

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4.1BE 13 J.08E • I I 1 .911- 1? 1.19E 1?

90.0 7.97E 1J

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4 .77F 7.bit

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170.0 IJO.O 140.0 150,0 160.0 1/0.0 180.0

no.o •00 .0

1.B7F 14 7.14E IS J.06E 15 1.761 15 5.14E - lb 7.09E lb 8.44E 17 1.48F 17

?.?3f 0 1.0b

1.V6I 9.7O(

7.B7C 1.15E

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• l b J.'-9( 01 U 1.611 01 17 7.Jbf Ofi 1A I.Jlt Ob

1 . .'01 I t 4.;-0( 05 h . iU 17 1 . 411 a\ 7 .SU 17 B.b7f Oh 1. Iht • 17 I . 9 7 | Oh

JOO.O J50.0 400.0

1. TH 3.5NI

500.0 510.0 bOO.O h50.0 700.0 7%0.0

l . ? l l 1 .16L 1.101

1 .491 7.701 J. 1 II

I . f l t l 74 7.441 76

7.6BI JJ J.V1E !1 J . b H J7

9 . 0 J ! i .m I .4AI

Table 3.3 (Continued) (8/11)

IQUtVA l fN l AMI) .11 UdllAT !l)H FACT Oft

IHI IDENI N lU l l

1 cnNfRf i f / rnTAi H I umoN

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JO J.69I -00 9.79F 10 1.701

JO.O 1 . 15E 10 8.S7E -01 1 . J 4 l 10 I .011. >00 1 . T7E 10 8 .9 71

'00 8.961 • 10

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8.4BF ID 1.75E<0Q J .bOF 10 I . J S l t o o 1.75F 10 1.001«00 8 . b 7 t 11 T. 151 01

01

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1.70F 11 J . i 4F 0 1 ,OJE 11 ? . i M o

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1.J1E OJ

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4.69E--70 7. 7.54F 71 4 . 1.19F 71 B. I .76E 7J 1 . 1.J7E 71 1 . 1.40E 7T ? . 1 . 5 7 E /9 1. 1.74E J l 4 . 1.97E 11 1 .

l . » « l J * J . 6 M 77 7.. '11 17 7 .7bt ?4 1 . 7*1 J l 1 .871 7b

1 .111 « f 8 . 191 It

1.861 74

J . b l F 1.B51 IJ 1.07F !1 4 . 7 5 1 JB

1 .4 j ( 7.071 ?.tb(

7.7 91 7J 1 . 4 / f 75

1 .011 -10 1.411 11 7.071 I I 1.7JI 1* A.57t 17

b. 1 19 4.J71 71 7.781 ?J l.fl"M -?5 1 . I I ! ?t B . 7 A I JO 4.sat i?

- 2 8 -

.IAKH! Date/Code 94 003

Table 3.3 (Continued) (9/11)

RCCKI H AIT.f

1.0 I.11EOB Z.BIE'OO 1.1JC 08 ?.IIE>00

1.6101

*tr .r 1.110)

A i r . r ' . i9£«O0

1.0 7.61F-10 1.68E'0O

'D.O J.37E 10 \.171*00

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r.ibt io !.O«( 10

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7.16E-10 l.OIE'OO

11.0 4 . l i t - 11

1.0 80.0

100.0 1 .4K-1*

140.0 1. JJE-16 7.14C-0!

1.1SE- 10 S.tlE 01 i .UE- 11 ] . *? ( 01

2.121-11 7.57EOI 9 . 9 H 1 2 1.1IE0I

7.17.C-1? 4.1JE07

1.07E-15 I.4IE-02

l . J O C - t J l . JZE-OJ

94E 11 I . l f c E O *

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t .6JE \f J. ISE 06 1.19E 17 ? . 7 U 06 3 . 1 3 E U •*. 10E -"

I . 4 U I I 1 . 7 0 £ i

-|» i.lif-i 70 7.0111

200.0 1.7 770.0 1.71 140.0 1.7 b . l H 77 J.7fcF 10 l . 4 4 ( •? ] ! . 0 6 t 11

i t o . o i . r i r ? i joo.o i . m - ? 4

110.0 7.61E77

* . ?*E -3.6«F

10.0 7.4DE 11 IOO.O 1 . 1BE-J3 10.0 7 . 6 U 1 6 7.76E

,00.0 3.BIT IB 1.J1F 10.0 1.91E-4O 7.91E

l . iOL 7B 1. B0( -

1.14F-71 7 .UC 1.141 77 7.411

4.71E 71 2.»2f

l .O fE*?* J .J i t 1.4»E 71 > , l i t 1.BH7I 1.01C 7.S1E-71 1.0?r

1 . 4 1 1 - j j ? . 9 8 E ? I

f . B J l J * I . 9 i f 7J

O.OOf-00 O.OOf'

0 .00 l>00 0 . 0 0 1 *

2.97F 13 1.7BF 1.66F I I ».0»E 1 . 1 N J 7 *.0»F 0.001*00 O.OOt' O.OOt'OO O.OOE •

a . t JJ l . t l t 70

( . 1 7 E H 7.90t O.QOE'OO O.OOE* O.OOE -00 O.OOf

Table 3.3 (Continued) (10/11) OM tACIOS I CONCRUE I lOtAL HFUIROH

( j . no a.tan c HI CHI H A l l . i n tti.r

11.0 3.14T- 10 6.S7F 01 70.0 1.021-10 3.96E 01

10 6 .2 IE 01 1.71E-10 ».S2E-01 1.0fc£-10 5.S0E 01

JO. 1 1 .

10 . 1 1 . 60 .

7 1 .

ao.

90. 9 1 .

100.

110.

190. JOO. 7?0. 740.

?ao. 100

0 I.60F 0 7.161

a A.74E-0 4.14E-0 7.17E-

0 1.11F-

3 2.74E-

1.6SE-*.1Tl * . 1 6 t 4.77F

J .69L-J.11F-

11 17

1 J 13 13

"

11

70 71 7? 73

71 7b

1.1 9E

1.99E 1.71E 7.J7E

' • « "

1.961

1.9 1.9

2 .1

2 .8

f t [ E

f

F

• 0

-0 0 0

• a

• 0

OS

•OS

10

• 1

1

1 .

a.

7.

i .

7.

1 . 4 .

1 . J .

17E 091 091

H E

21E

It m n 4E

?t

• 11

13

• 1 3

13

14

- 15

• 7 0

•a

71 76

l . *8E

7.14E 1.30F 7.97t

1.07E

2. IOC

6. J i t 2.O7E 7.281 7.-.1E

l.iot

01

07 0? 01

01

04

09 09 10 11

1 J

J

t

1

1

J 1

,6fa(

.J6f

11

l ! 13 11

14

11

. ' .0( ?0

.1U2I 171 • ? ?

. 8 6 E 7 1

38E

7if

7

8

1

7

6 7 ? 7

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. ;ot

.311

.27F

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. I9(

.1AE

. : ? t

. * h l

. / I E

01

07 07 01

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0 4

• 0 9

• 0 9

10 1 1

13

9

1 7

1

1 . 1 .

J . 0

6?

an 99F

HE

171

641

14t

l ? l 79f 101

OOt

1?

•13 13

14

n

• 17

• 70

70

- 7 1

??

2!

71

7.31F l . O E

3.71E

1.11E

?. Iff.

7.I6E

7.64t

J.71I

1.76F

• 0 1

-07 07

OJ

-OJ

•0*

Ob

08

09

11

IS *00

9 i i r

1-blE 7.8bE

1

1

1

1 1

3

90t

06F

nr

901

IK 30E-90(

971

31F (IIF

13

13

I t

14

IS

17

?0 70 71

?J

71 7ft

S .J4E07 l.««JC 02 1 , ? U -0?

4.39E

l . l t E

01

01

i.70E

1.21*

9.991

01 06 0*

08 08 09 10 11

IS

JiO.O 1.11

100.0 O.OOF*DO O.OOt *00 0 .001 '00 0 .001 '00 O.OOf«oO O.OOf •

0.00£*QO 0.00(^00 O.OOE*00 Q.00f*O0 0.00t*00 O.OOF'OO 0.001*00 0.00t*00 o.oot*oo o.oot*oo o.oor»oo o.oot*oo

110.0 O.OOE'OO 0 .00 t *00 O.OOF'OO 0.001*00 0 .00 t *00 0.001*00 O.OOE'OO O.OOt^OO 0.001*00 0 . 0 0 t * 0 0 600.0 O.OOL*00 0,OOF*00 O.OOf *00 O.OOf'OO 0 .00 ( *00 O.OOt'OO 0.001*00 O.OOE*00 O.OOf'OO 0 , 0 0 t * 0 0

700.0 0.001 •00 0.001*00 O.OOt *00 0.001 •00 O.UOt*00 O.OCt «U0 O.OOT'OO 0.001*00 0 .00 ! *U0 0.U01>00 710.0 0 .00 t *00 0 001*00 O.OOL'OG O.OOt'OO O.ODI**00 0.001*00 Q»tfQt*OQ 0.0Ot*OO 0 OOt ' 00 0.001'OU

- 2 9 -

JAKKI D a t e (•()<!<• 9-1 ()(«

Table 3.3 (Continued) (11/11) 00SI EQUIVAUNI A10 A[tlMU<*[ ION M U M *

1.0

10.0

11.0

20.0

21.0

.10.0

J1.0

4 0 . 0 4 1 . 0

J.S9E 11

1.BU 11

B. Mi • 1?

4.76F 1?

?. l i t i?

1.06E 1?

41 I ,r

1 . 1 / 1 '00

9. 7.6F 01

6.SOL

1.171

i .m 2 . S 6 I

1 .1 7f i ? . 10( -i

n .i A l I - f

10 .0

11.0

60.0

7 . / I t IJ 1.J9E • 1 !

?.7*t 10

B.?nt n

2.on i? 1 . O i l • 1 ?

• 0 0

1 . I l i '00 9.7BF 01 Mil 01 1.1/F 01 i.rn oi

7.HE 01 1.6/F 01 1.07E 01

J.90I 07 ?.I.'f 07

1 .011 b. J i t J.90t

1.101 • I .14F

J.60E I . . ' 71 -s . / r i 4 . 4 1 1

7-751

1 . 141 -

7 .4 /F 'OO 7.141.QO

1 . . ' i t ' 00

17 I . T 7 t - 0 0 17 8.OOt 01 12 S. I7F 01 11 J .77t 01 11 7.0OE-O1 11 1.7JE 01 IJ . ' .461 07

1. /OI 10 ' . M l 11 1.711 11

B.lbt l i 4.70E 1 ! 7. M f - 1 J

1.111 '00 1.741'00

«.m»oo 5.04L*00

7.101'00

1.Jill '00

i.aoi oi

VJJ[ 01

7.101 01 1.28C 01

'0.0

/1.0

ao.o

J.&if 14

i . l i t • 14

l .O i t 14

1.9'jf 0.

J . lbf 0

7.121 0.

J. l»t l .Rl t 9./0

8.6JI 03 J.7H 14 S. IBF 01 l . M E M J.09( OS 8.4JE 15

J.01F I* 1 .601 |« fl.Kt- l i

?..*1f 07 it 07 U OJ

7.911 - 1 * 1.17E

-11 1.6/t 07

90.0 7. /8f 11 1.4/F 11

/ .B7E- 1b

7.711 lb

b . 7 8 ( 1/

100.0 110.0 170.0 110.0

140.0 110.0 1*0. 0 i 10,0 I B O . O

140.0 700.0 770.0 ?«0.0 760.0 780.0

Joo.o

JlO.O

7.11H 1. OOt J.401 06

r .J i i

1.77E

7 . 701 - 11 l . B 7 ( 0 1 1 . 1 / 1 1 1 3 . 4 I t 0 b . t B t 16 7.O7F 0

l . T l l W 1.

1.71t 70

J . / l t I I

It 7 0 7 . l i t OR

F I f. 1*1 0 4

i . M I ?0 i . Oft I.I7( 70 i . l l J .Ut ?l I.?OI

S.B7E ?J / . 7 4 f 11 l .Obt 71 A . / A t 11 l .bJF 71 1.9/1 74 8.841 17 7.B4I 74 9 .1 /1 17 1. 'tit 7« » . 1 4 t - 7 1 l . O / l 17 7.61F 71 1.071 17 1.411 .•! » . 6 9 l 7b 1 . 1 9 1 15 O . O O t ' O O O . O O t - 0 0 4 , 1 1 1 ?r>

10.0 00.0 10.0

IOO.O

10.0

O.OOt >00 0 . 0 0 1 - 0 0

0 .001*00

O.OOt•00

O.OOt '(10

.OOt >00 O.OOt>00

0 . 0 0 1 ' 0 0

O.ODI-DO

0 . 0 0 1 * 0 0 O . O f

7.0Jt 0/ b.«Jf Cft

7.901

i.ioi

7J

7 . 1 7 t 71 U.QOl*00

a.oat >QO 0.001 •

o.oot •

O.iiOt *00 0,001 M]0

1 .Olf 'HO I).OOf "11

7 . / I I 74

7.1101 71

0 .001>00

O.QOt'00

O.OOt'00

O.OOt"00

0.001'00

0.^01*00 O.OOt'00 0,001*00 O.OOt tOO o . f l i u .no fl.oni>oo

O.QOI • 0 0 0 . 0 0 1 '(JO 0 . (101 ' 0 0 0 . OUi '0(J

0,001*00

O.UOI«00

Oil 10

Table 3.4 Does equivalent per source neutrons and attenuation factor of secondary gamma rays in ordinary concrete (1/11)»

(t(CH)

10

70 7 1

JO IS

10 11

bO

TO

AO

90 91

too no 170 110 1 4 0

1B0 190

700 770

7bO 780 300

»00 410.

100. 110. 600.

700.

0

0

0

0

• 0

0 0

0

0

0

0

0

0 0

0

0

0 0

0

0

0

0

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1

1

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7

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1

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l i t •IE

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l i t

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1

4

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7

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03

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11 11

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17 i :

t i l 17

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1 .' 1?

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1 1 7

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7

1 1 1 1 1

1

1 8 4

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4BC 30t U t

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.JAKKI - Dati'/Codc 9-1 003

Table 3.H (Continued) (2/11]

DOSE EQUIVUEN AtTEHUAMOM MUOM

IMCIOENI MEUIRf

(775.000 750.000) (750.000 775.000) (775.000 700.000) (700.000 - ISO.000) < 160.000 160.0001 It(CH) H HIT.F H A n . F H A1T.F H « f l . f n AIT.F

5.0 1.4 IE 11 2.04E OJ l .JBf I I 2.O8FOJ I . J / l I I 7.15f OJ I J f E I I 7.71E OJ I.J7E- I I 7 . 7 U O J

15.0 7.99E-17. 1.041

75.0 J . J J F t ! I.VJE 0? 5 . ? « I? ).»7E 0? 5 . 1 / ( 1 ?

10.0 1.15E-17 7 . U E O 7 55.0 1 .5« 12 7.79E 0? 60.0 1.31E- 1? 7.ME 0?

100.0 110.0

UO.O

140.0

J.?OE-U i . tu-o? 7.JJE 13 1.6JE07 1.f?f-1J 1.4JE l . l l i ' 1 1 List-

19

30 ii J? JJ

}*

170.0 110,0

E 1? . ( • 12

I f - I I

lEU

i f -0? IE 0?

i . B J t - i ! ? . 8 7 E - O ?

l .49f 1? 7.SJCQ7 I.7SE-17 7.BIEO7 1.45E-I7 2.B3t-O?

E 02 ?.*:f 1! IE-O? 7 . 0 J C - 1 J

IE-O? 1.4IL-U t 1.0IE-1J

?[-0? 7.63E -

. 4 0 ? 1.B1E-Jt -0? I . J tE-sc o? i.ari-

IJ 1.70E 07 7.47E U l . t 7 E 0 ?

I .HE •< 9.96E i

700.0 1.11EU 4.41E 01

710.0 ?JO.0 100.0

4.19E-15 1.I4E-03 ? . i » F ! S I . U t OS I.S8E- 15 a.TrOE

J.4! t -1» I.WI-Q.

J . U t 01 J.JJl OJ

4 . U E " J.4BE

7.I9E-I

?.54[- 15 I . H E OJ

500.0

bOO.O

7 0 0 . 0

s . i a t o i

1.94E-

J .1JE- I f 4.J0COS 1.08E-U 1.67C-0*

t . T t l - \ t J .

I . 1 7 E U 1.7

I . J 4 E - 18 7 . 7 9 E O 6 1.01E IB 7 . 1 9 ( 0 6 7 . 7 7 E I 9 t 06 4 .B

7.S1C01 * .?St Ob J.74E 06 1.17E 06

).]OE l,»*E

?.iu T.Otf

1.36C IV J.Bl l Of 4,? l t L'O I .Jr t 0/ l . t « 70 *.» C OS 1 .70 I 70

Table 3.U (Continued) (3/11)

9.93C-1? 6.67E-03 1.01E-I I 6 .B1E0J 1.0?E-II r .O^f-01 l . O J E l l 7.I1E-0J 1.0SC-11 f . t t E O J 15.0 ?.T?t 12 1.UE-0? I .BSf-12 1.3OEO2 r .9?£- l? l . i l C - 0 2 7 . M E - 1 ! 1.261-0? I . m i ? 1 . 3 ! f - 0 !

5 0 . 0 1 . 7 H 1 7 7 . 8 ' 5 5 . 0 1 .37E-17

t - 0 ? 1 . b h t - 1 ? 7 . B 7 E O ? I . 6 7 E 1 7 7.79E 07 1 . 5 9 E 1 ? 7 .77E-O? 1.56E 17 ? . 7 6 t - 0 ? '7E-O7 1 . 3 J E - 1 9 2 .7 7 E O 7 I . 7 8 E 1 7 7.6BE-O7 t . ? 5 E - I ? 7 .6 5E-O? 1.??E 1? 7 . * 7 E O ?

90.0 3.J1

100.0 2.2SC-1J •S7EO7 2.01 f 13 1.11E-0? I .41E07 M U ' l l 1.33t 07 1.971 -15 1.71 1.7BEO7 t . / J E I J 1.?0f 07 L IVE 13 1.1

OEO? E-0? E 0?

I] t-OJ t -0)

190.0 1.72E14 700.0 f.OS

I . J 1 E 1 4 7 . 8 B C 0 I 1.04E 14 7.331

l . O B E O J 7 . 0 * E - l l

HO.O I.J1C I t 1.0/4

fOO.O I.HI ?0 J.ftOt 08

7)0.0 J. 101 71 1.Iht-0A

o*

J . 5 3 F - 1 5 1.001

' . ? l t U I.7JE 04 i . i ? t i t r . m 05

•Ob

70 i . r?c-or 7.Sit 70 7.081 OS

l.*SI 71 1.0*1-09

1 . 4 H - U 7.071 06 7.87C-19 1.171 01

1.4U-7O J .S* l 01

7? 5 . 4 H I - 1 0

5.9!t 71 1.111 01 1 .171 ?l J.51I 09 7.3JL 7? B.OSt 10 4 . A l l ?] l.B«f 10

- 3 1 -

.JAKKI Date/Code 94 • 003

Table 3.4 (Continued)

R(CK> 5.0

10.0 11.0

1.491 11 ?.(.<•£ 03 I -01E-11 / .51 t 03

I . 1 0 1 I .Obi. • e . M i

7. * I E OJ

/ . / I E OJ I.J4E 07

1.6JE 11 l . l O f 11

B . J / F i ?

AM A J.OOI 0 1 l . * U - 1 1 3.04F OJ 1.64f 11 J.OIE

1.10E-11 8.77E OJ 1.101 11 a.J?E 8.J81-17 I.41E 07 8 . J / I 12 1.471

J . I S C - \ 2 2 . J l \ I . I 0 I - 1 2 7.tTt 01 J . l * ( 1? 7.«4f 07 1. 10F-17 7.841-07 J.06E 17 2.Bi t 07

1.121 17 7. / IE 0? 1.19E*1? 7.581 0?

1.4*1-12 7.68E 07 1.14f 17 7.51F 07

1 . 1 .

4JE-lOf

17 t?

7 .6JE 07 07

1 1

.I9E

.0*E

? . m - 0 7 i.fti -12 ?.'it 7.60E 07 I .HE 17 2.HE 7.41E0? l .OJI-17 7.J5( • 7.19E 07 7.86F 1J 7. 1 J( •

l . M f - U 7.0U 07 4 . i o £ - u i .a?[ 0? J.16E13 1.64E07 J . ? B I u i.UE-02

J . m i J I.ibE-07 J . l i l IJ 1.491• 7.B9E-1J 1. J«E -0? ? . M l IJ 1.J1I •

90.0 91.0 00.0

7.75E1J 1.3 IE-07 7 .0JE1J 1.70f 07. l . B b t U 1.171 07 1 . ^ - IJ 1.01E-0? I .61E U 9.81E-1.80E1J 1.161 07 l . t l f U 1.06E 07 1.4bf U ?.*4 t 01 I . J 1 1 U 9.11E-0J I . 7 4 C U B .4H-! . + *< IJ I.Oit 0? l.?Bf IJ 9-J?r OJ 1.15E- U l . t n - D I 1.06F - IJ r.B9t -OJ 9.6IE - 14 T.74E •

JO.O 40.0 10.0

.60.0 *0.0 80.0 90.0 00.0 70.0

740.0 760.0 160.0 100.0 110.0 400.0 410.0 100.0

1 .B7E-t4 7.94E 1 . ! J E l 4 7.?» l 8. J41 15 J . / J f OJ ft,J6E • 11 1.681 - 15 1.37E OJ 4.71f I I J.89E 15 1 .01 ! Of 7.BIT 15 7 .6 f t 15 7.6/C 04 l . fO t 11 1.7'E- 15 4.47E 04 8 .WE- Ib

J . H E 15 7.0'E i i l . J ' f 15 4.01E 04

7 . l i t 04

?. ! * ( • 11 t> 70E 1.65t 11 4 .4J I I .Of f 11 1.191 4 . 4 j t 16 1.601 •

J.OOf 11 1.7bE 11 H.UOI 16 J. IBf 16

7.<lbL Ib 1.4 I.87E-16 B.9 • 0 1

4f )ft 1.171 Ib b. tOt 01 ' . t I f J .9 0 1

* . 0 * l - 1 7 4 . 1 / f O l J . 9 J E I / 7 .5BEO1 ? . W f \t 1.70t -1 / 1.06E 01 J.B8E IB 5.76E 06 7.B7( IB 7.0fE IB 7..JBE 06 8.<t?l 19 1.0*t 06 J./OE U J . 6 7 E - I 9 'j.lbt-lif I . 3 T F 1 9 7.071 0? 4.BBE 70

1.441 01 Z.llt 06

1.HI 1.6)1 -1.9JI 7.791

5 1 0 . 0 bOO.O blO.O 7 0 0 . 0 *!0.0

7.00E-71 j . i o r -? !

1.UF7J

?7 J.0?( 10

I.JJt 06 1 .49 t Oh ? . J O l i>? 1.411 OB \.Oti 01 T.JO! 10 1.011 10 1,*1F II ?.00l-1?

5.101 1 ' ?.05( W B.74t IB B.bJf I * 9.0*1 70 9.4BI 71 9.")hI -77 1.011 77 1.I It ?J

1 b F

71

Table 3.1 (Continued) (5/11)

R(C

10 11 70

H>

.0

.0

(

1 a

?t 15.000 •

11

.061 11

.11E 1?

10 . A l l

B.10E 1 . I9F

0001 1

• 0 3

• 0 7

IHMDtHt nf 27

( 10.000 •

f .9/1-12 1.

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07

/

(

„...*• 7J

45.000 H

.HJF 1? i

*0. A i r

. J/E

000/ .t

07

74 < *Q.0O0 NI5

OE ? 2 !

?.84F-17 I .36

1

t

OOOi

OJ

-07

( J l , .000

l . l b t

8.041

11

17 17

?1 JO.OOOi A l t

J.OBC

1.4JE 1.9B1

.1 • 0 ^ -OJ

07 or

41.0 50.0

(iQ.O 61 .0 '0 .0

BQ.O B1.0

1.bit 12 7.61E 07 1.b7E 17 7.13E 07 l . JH -17 7.10E 02 1.75E 17 7.40E 07

.'.111 IJ 7.06F 07 /.06E 11 1.961 07 i.bflf ti t.SU 0? 1 . J l f J l l.fll-O? «.17E 13 1.6IE 07 4.001 13 1.11F-07.

7.10E1J I .2JI-0? 1.91E U 1.01E 07

? . 7 B 1 1 J 1.171 07

1 . 5 1 ( 1 ? 2 . 4 K - 0 ?

ft. b i t

J .bBf

7.Obt

I J 1.1 I J 1.1 I I l.<

IJ 1.1

l . 4 « 12 J.J61 02 1,41117 7.J2E-O?

8.J/T 13 1.98E0? f.M4l IJ 1.90t 07. 6. l i t IJ 1.74E0? 1.801 U 1.61! 0! 4 . 1 / f U I.SII-O? 4.73r-lJ 1.411 07 l.JSF U 1.2*>EO7 I.QRI-13 1.19E 07

1 .81E I J < J . 7 4 r O J 1.63E IJ B.76E 1.191-11 6,/ '9(-

1.171 - I J S .16 f -H

110.0

170.0

111 l l 1.1?[ 0*

o r r i f t ? . O M 04

7.0I f 11 .1.1 ?! -04

i.ror 16 i.?4( 0*

7.ibt-16 f.in oi

780.0 JOO.O J10.0 400.0 410.0 500.0 110.0 bOO.O ilO.O TOO.O

I . I O l - W /.18E Ob ( . H E tft J.91L-0b 4 . 6 U 1 B J . 161 Ob 7..J/1 18 t . 6 4 L 0 t 4.70F 19 J . 9 7 t - 0 / 1.8M IN 1./1F 0/

J.101 71 1.40E 09 1.7U-77 6. l i t 10 7.97T 71 6. /4( 11 7.67E-74 7 . n r 17 ?.*7t 71 7.B0E 11

?.06 [ -7 / 8.871 - 11

1 . I l l 71 I . '9r 01 9.091 ?J 1.711 10

J.JIf

t.nt

J.50I• 7.JTF

1.141

IS 7.

?o r.

?i J.WI 11

B.9? l 7J !.*?( 10 1.H1 74 1,011 1 !

\.m 7t. 4 . 8 ? t 1 * v . / 6 ( 78 J . ? J ( 11 l . fcf t l 79 ? . ! ? ( • Ib J . j o i io i ,*'»i \r

B.98E- 1 / 7.8*1 01

18 3.43t 06

s.B6f -71 a . w r o« 4. ?U 77 1 . J7F |0

7 4 7. O I L 1 3

?.m r' r.R-jf i i

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.JAEKI - Date/Code 94 -- 003

Table 3.U (Continued) (6/11] tNO AMEXUAFION FACTOR

IMC1OEHI NFUIRI

76 ( l / . lOO l

RUN) H Al I .f H

1.0 I.SH1I J.67E-03 1.81t- I I 10.0 I. 14E1I 9.?1E OJ 1.1/1- 11 l i .O S . 4 U I ? 1.J7E 0? a . l l f • 13

1.97111 J . m - 0 3

I . tVE' I I 9.bOF-O3

a. WE- ]? 1.J6I 03

H AIT.F

l . l b i l l J.7Bi 03 1. I9f• I I 9 .b9 l 03 1.0/E-17 1 .6H-0?

K Alt.F

4.4IE I I I .Jfc lO! 2.t*£ -11 7.07C0?

1-JiF 11 7.1010!

0.0 I.9YC-I? 7 .5 IEO? 5.0 1.4JE-1? 2.3 IE 07 I . J 8 E - I ! 3.25E 0? 1.?*E-12 7.0M-0Z t . ? H 1 2 2.O7EO?

E l l 1.37E 0

£-13 f .07E O

3.66E- I I 1.74F-O2

l . l bE I ] I.J9E-O3 1.I9( U 7.48E-J B.llE-01

E l ] 4.I4E0J

?.m-u ».J«-OJ 1.S4E-1I 7 .40(01 1.76C-13 S.F« 0 ! ».!•( It t.48C OS i.r»E it 3.4jf oj

4»E 1.91E 01

ie-14 I . 9 0 E 0 , I .49E- I t 1.6+E 01 -11 8 .4 *1 -0* -ii * . r ? c o * • 11 I .b i t 04 - 14 t .4 t l -0«

1)0.0 1.MC-1 I . IOf-1i I.19F04

l . l i t - 1 4 4.1kt-01

I.13F

?,1IE

1.30E

1.1If 04

4.91E01 7.0M-14 4.JI101 I.OJt-1* I .4U01 WO.O i.JJl-

110.0 I.14E-110.0 I .07E' JOO.O l.J»E

320.0 I.44E-

l . ) U - 1 4 J . * * f 01

?.»Jl OS

i. ru-oi 7 . 1 * 1 IT 7 . I 7 1 O V i . M i i r i ,;?f os

l.i*E OS

«.? It 0* i r»i-\T i . iot l . t t C U fc.ObE 1.741-

7,J?C 0* 4 . 1 4 ( 0 1

4 . o o ( o r I.06E-760.0

780.0

300.o a.on-JiO.O J . H E -

or 4.JU-70 4.011 -01 1.I0E-70 1.13E 01

1.24(72 1.78110 *.ME-71 5 .J i t 11 7. I IE-7 I 3.63C 1 !

1.2?E-?J 7.10E-1J f. l?E-?7 l . f 'E-14 4.37E-7B 1.77L-11 ?.?(£-?• «.J9f-1? 1.71E-10 r.Olt-II

5 . 0 ? ( ? 0 J . 6 H 0 J

7 . IOC-21 ? .0b! OS

S.»*E-70 1 . * VE•?1

7.S0E OB l . * * E 01

? . * IE-70 I . 7 4 E 0 I

500.0 I . W E - 2 ) fc.1 5-.0.0 1 . l ! t ? 6

7.34E ?S 4.69L 13 1.?bE-?b J.06L 14 T.111-78 7.0SC 15

.6JF 77 ! . 3 6 ' • 14

.•Sit • .'B 1 . ' i t i t - !•> 4,1?L-78 1.211

Table 3.U (Continued) (7/11)

INCIDtNT NCUIRON INFHGY(NlV)

5.

1. 0.

0

0

b JIC n

1 . 3 7 E H 7. . , ' f 0?

"

1.60E-11 3. 01E 0? 1 .99F 11 1 . Tbf 02 1

H

.7bE 11 J .Jit •0?

H

1.50E- 11 7.I9E-0?

I . U E I 3 1.97E-0? 1.19E17 7.0?t-0? 1.?BC17 ? . l 8 t 0? 1.17 0.0 r . l R E U l .6Sf 02 fl.OSE-U 1.69E 07 B.bOF 13 1 . 8 1 * 07 7. B7

.0 1.44E-13 l . J b t - 0 7 S.t9E- U 1.3 9EO? i.BOf U \.*K 0? S . 1 1 M J 0 .0 J . M E - 13 1 . l i t 0? 3 . 7 3 E 1 3 1 . U E - 0 7 1.17C U I . O t - O Z J.hOE I I

1.0 L I T E - 1 3 5 .4 f .EO3 1.18E- I J 1.131 -03 1.7JE U 1.T9E 03 1.17E 0.0 r . S S l - H 4 . 7 3 E 0 3 a . O T E U t . J 7 E 03 S . I ? t 14 4 . 1 1 E 0 1 7.bQE

. 0 1 .7JF -14 1 .431 03 | . ? 6 [ l l 1.4 7E-0J 1.31(14 1.1!t 03 I.6 7E•It

1?0 .0 J . S i t IS 4.1bE 04 1 3 0 . 0 1 . 8 1 1 - I S 2 . 1 4 E 0 4

T9E-0? S 3 E 0 ?

1.36t 07 l . ?O t 13 1 . 3 1 E 0 ? I . I O f 0? J . 1 * r - l l K O l f ' O J

S . l l t -03 I . 1 U - U 1.37EO1 1.11(01 r.UE-14 4.17C-0] 3.HE 01 1.10F l» J . I H 03

1.37E OJ l.ftlE I t 1.3JM15

1 . 8 4 E - 1 1 S .bOF-0* S f - 1 1 2.4 IE Ot 1.671-1? 7.4U-04

F 7 0 . 0 I . T f t IB J . l l t - I B 1.34E-Oh j . l l f IB >«E Ob 7 .4. F - 18 1.771-04 7 . l * t - l 8 i . lD t Ob

0.0 1.841-70 1.1TE OR O.O 8.11(72 « . t r t •10

1.4ft - 70 1.4Rt-0B 7.16t•?0 1.ft.

4.J1E 73 1.77E-M 4.79E 73 6.401 11 1.7H 73 7.{ tlO.O 7.J?(-7t J.89L 1? ?.b7F 74 4.4*1-1? ?.fl*r ?t 4.1 500.0 1.371-71 ?.Mt 13 I .1H-71 J. lb t U l.4?r ?1 J.« 110.0 7.4BF-77 1.«7t- l* 9.09F-7t 7.3OF It 1.6?E 77 ?.< (JOO.O 4.16F 78 I . J b E l l l . b B t 78 1.711 11 1.17f ?i \.l blO.O 7 . t * \ •71 1. / I t 17 J.bbl / I I . ?OI 1b J.7bf 11 1.J. 700.0 1.811 10 r . i l l IB ?.*1I 10 9.1M 18 ?.<>•>( 10 7io.o I.CJF J1 i.i4i 19 i.bit J I r.m if t.t«t JI

E OB 1.b7F 70 l . ? r t - 0 8 1.12E-7O 1.17E OB 0F 10 * . * » ( 27 * . 9 7 1 - 1 0 JF -11 ).!*( ?J «.?<)l 11 F I I l.hJt ?J

L 13 9.9«f 7k 7.111 13 8.101 ?b 1. fif U 1.1JE 77 1.»?t 1* 4.161 77 l . l l f - 1 4 J.I IE 7R 1.7*E • l b ?.»It ?fl 7.*71 16 I.IQt 79 6. ROE 17 1 .3^t 79 1.071 1?

1 . HF 30 *.»*( IB 8.711 JI I.t4t II

- 3 3 -

.IAKKI I),ilc/('ndc 9.1 003

Table 3.U (Continued) (8/11) ' CON(.N[ Tf

I (HI ItGVCMtVI

< 8 .190 - b.fOOl t l O l H Alt .F

1.0 S.Mt t l \.77t 07 6f( I I b . l l f 0!

11.0 1. l i t 11 7 0 . 0 / . ? 7 f • 17

9.07C 17 1 . 6 9 1 0 ? 8.81E 17 l . b ? t 07

• .61F-17 7. ' t t 07

it- I? 7.19EO7 E- 1? 1.91E 07

I.19E-17 ?. 1.121 17 1 .

i . t o t 1? i.oac-o? 1.111 1? l . l»E 07

l.bJE 1? 7.7JE 07 1. l i t -I?. 1.94C 07

'A 17 7 . M E 0? H i ? ? . o r t o ?

t - 1 1 I . J U 0 7 I . J O E 0?

1 ,(11F 07 1.O8E J.J9E

1.12f 07 LOSE 07

* . 9 t f 11

J.JIt I I

70.0 1.b9E-lJ 7.0bt 0 !

n.o l .SOt U 7.JJE OJ I.10F1J 6.JOt 01 b . l T t - O J

4.801 OJ

90.0 J.69E-91.0 7.S7E-

100.0 1.711-

1.9H-0J 1.16E OJ

J.911-7.rat

1 .ait

? .htt OJ 7 . O H 0 ] 1.17E OJ

l . 6 t f OJ 1 . 7 « f O J

1.101 -

1.7kf-1 . . a aj

t.0*1-OJ I . t b f I t 1.411 OJ 1.0*1 OJ

1.B6F 11 ?,6?f-0 t . l i t 11 l . b n l • I.OK ' I ) 1.6?i 04

60.0 1 .941• tb 4 . /O.O I.Mf 1/ 1. 80.0 • .6 IE 1/ t. 90.0 7.78E II

00.0 1. t i t • \t

1.9BE 19 1 .

t . 9 9 t • I b » . ? i f 01

9 .60E- U 7.J1E 01 \.%n tl 01

1 / 1 .6M 01

at 01 71 06 7E Ob

100.0 i . ;of- 70 1. I U oa

. 6 f t W

.79( 17

. m u ,nn • ta . *7 t 19

.111 19

. 101

. 7b t OS 1 . t b l W 9.171 Oft

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.flJ[ 06 B.60t IR J.SOf Oh

.161 Ob 7. m ia 8.bJF Ot

?.b fE 01

t . i i i Ob

?.»»E Ob r . 7 j r o/

i . l i t • 11 i.Jii

fc.rai 1 \.Tbt I

.tit 7,*n or 7.94*-Of t ?.17(-06

J.0flt-7J «.71E II 1.i iE•74 7.6bE 1? 8.00E- 76 I.ME 1J * . l \ l ?f 1. 17E I*

j . i b r ? j * .7 iE n 1 .bOI ?* 7.b4E- 1? «.*?[ 7b i . / % r - u 4.S91 Jt 1. lh [ 1*

*t 77 1.7K J.»!T 11 ?.Jb£ 7J 7.7JE I? l . : o i ? « l.»h( I I 6.1«E 7b •>.(.«(• 11 ) - * 1 * ! 77

.*.»0t Jl ?.•*•.( 7 . /M IB I..19119

1.11E 7» 6 . t i t 76 I.J3I 7!"

1.771 37 1. V

DOSE CQUIV4K HI

Table 3.U (Continued) (9/11)

NClOIHt NlUfBDN I NiRGV<KEV

(Cm 1.0

10.0

70.0 71.0

JO.O

40,0

f

7 1 9

J

i .n io ii

.J7E-11 ,?9E-11

.JVl

.bhr

17

i i

7

Art .F .bbt -OJ .T6F 07

.9ft[ 07

7.0.U 1.74E

J.471

- 11 11

•17

AT!

LOSE

i.;*t

J . O f f

-01

0?

0?

1 . 1 .

J .

H

tn u

*9E 17

AIT .F 4.J6E OJ 1 . ? U 0?

] . 101 0?

II 1..17E 11 1 . IJ! 11

!.!•( 17

t

J

Alt

.JOF

.l it

.F OJ 0?

07

1 .1AE

l . JK J.1BF-I.SJt-

11 11

17 17. 1?

an

1.J9E

l.-JH

J.111 7.801

•OJ

07

07 0?

or

,5.0 l . l ? t - I ? 7.71E 07 l.OBf 17 7.19E 0; 1.OIF 17 ?.06t 07 9.9BE U 1.9 0.0 7.*bF-1J 1.87E 07 7.151 IS 1.?9f 07 6 . 6 U IJ t .b>( 07 b. iht U 1 . ^

I .Utl l 1.1/(0?

fa.O?( -11 1 , « M 07

.0 J . 7 6 E 1 J l . l l t - 0 7

.0 1 -*0L IJ b . M E O J

J .07 f

l . JO t - u 6.111 o j

90.0 7.bOI

9J.0 1. 7.1

JO.O 1.07E-

J.10I - 11 3.b?(-0«

i - 16 1 .WE 04 M I F - U 1.?7E- • I t I . IbC-04 l . ^ f H t .071 04

170.0 1.7BF-H I.4 9E-01 4.«6f • 180.0 7.6 IE-1T 8.761 06 7.4 7E-

I.J7E 17 7.11E- Ob 7 .8OEU 1.9SE 01 7.JQE-* . l i t 17 I.17F-01 J.BbE \7 1.OH 0\ J . t J t •

49(-16 J.7«E 01

700.0 b.bBt 18 7 .b i t 06 6.19f-1B 7. WE 06 l . ? 1 f l » ?.09t 06 770.0 1. HE-IB 8 .19 (07 l . b l t i a t.fHOt 1.40E 18 ( .ME Of

4.99) 18 l . t l t 0*

1 . a i l i

1.011 i

780.0 3.14F 70 ! , M I 01 J . J K - 7 0 7.601 OB J.01E 70 ?. J2C 08 7.BM 70 7.1Bt OB 7.701 70 7.0*1 08

4 00

-.00

110

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7

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r-

u

u

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10F-7J

b i t 7b

J

1

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11

1J

7

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?J

76

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1

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11

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1.101

1.7--I

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76

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1,

971

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1 .8

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fc.

1 . 8 .

JOI

701 07t

1C 1

1

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unt-oo o.oot <oo o.oot*

- 3 4 -

JAKRI-Date/Code 91-003

Table 3.4 (Continued) (10/11)

( 1.110

RtCHl H

S.Q 1 . B 9 E - 1 1 1 0 . 0 1 . 46E 11 1 * . O l . l O t - I I

1 . 4 l £ 0?

2 . . J B E 0 ?

0 . 4 9 B )

At l . f O . 3 J 4

A I I . F 0 .224 )

mi.f

1 . W f 11 1 .J*F 0?

1 . 1 0 r - l l ?,61E 0? 1.B8F 0? 3 . M E 0?

i.bSF 11 7.69E-O? I . r g t l l * . 0 « 0 ? 1.77E 11 4 . *0F 0? 1.?7t 11 6 . } « r - 0 ?

tO.O l . O t l ? 7 . 7 4 E O ? ! . * « £ • 12 2.4JE 02 1.41E-12 2.76E-O2 I . J 4 E - 1 2 4 . 9 H O 7 .

55 .0 J . 5 4 E - U 1.0 6 0 . Q ? . m - i i r . r 6S.Q 1.40E-11 S . r

? . ? I E u a . m o j 1.341-13 b .19EO3

2 . 1 J E 1 3 4 . J 3 E O J I . I U 1 3 fc.BBE-03

1.HE-1J I.IJE-O?

1.2JE-11 t.])F-01

1.94E-11 1.bOE-O2

1.21E-13 1.1IE-O?

10.0 I.S7E-K

1S.Q I.00E- 14

l . W E l * 1.29E-0J ?.4n-oj 1.81E-03 1 .JU03

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1 ) 0 . 0 1 . 4 4 f - U U O . O 7 . O 4 E - U

i r o . o j . s o r - t r

1 .4JE 1 * 1 . 3 9 E 0 1

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B.bJ£ 18 3 . 1 0 1 0 b

1.J1E 14 4 . 7 4 E - 0 1 1.?9E-1t t.»/E-OS

i.HE-ir i.nt-oi

190.0 I.91E-1I 1.1 ir- Oh

300.0 t.5it-1» 1. f*f 06

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10 *.J1( 01

0 . 0 J.5J£ !? 4.74E 10 10.0 O.OOE*00 O.OOE* 00 0 .0 O.OOE'OO O.OOE'90

] . 5 ? E ? 7 *.bOE 10 0 .00 t»00 O.OOE'OO O.OOE»00 O.O0E*O0

2.4SE Z? 5 .191 10 O.OOE'OO O.OOE*O0 O.OOE'OO 0 . 0 0 0 0 0

O.OOf'00 0 . 0 0 t » 0 0 O.OOE'OO O.OOE'OO

f ' 0 0 O.OOE'OO

50 .0 O.OOE'OO O.OOE'OO ,00.0 O.OOE'OO O.OOE'OO

O.OOE'OO O.OOt'OO O.OOE'OO O.OOE'OO

O.OOE'OO O.OOE'OO O.OOL'OO O.OOE'OO

E«00 O.OOE'OO f ' 0 0 O.OOE'OO

l.Ht 7? t.?ll-10 O-OOftOO O.OOE'OO

o.aof'00 o.ooc'Oo O.OOf»00 O.OOE'OO O.OOt'OO O.OOE'OO O.OOE'OO O.OOE'OO

Q.O 0.DOE'00 O.OOE•00 O.OOf'00 O.OOE'OO E'OO O.OOE'OO O.OOE *-00 O.OOE'OO

Table 3.U (Continued) (11/11)

W E - I ? l . l?E»O0

i .O J . 1 I E - I ! B.S5E 0 ! 0 . 0 1 . 3 I E - t ? 6 .97C-0? 1.?bt •) ? ! .78 I . ? 7 £ - J 7 3 . 5 5 ! 1 . 2 0 E I ? b. !8E 01

0 . 0 l . B 9 ( - 1 J 7.74F 0? S.O 1 . 1 U 1 J i.b^E-O? 0 .0 ?.^0E-14 1.2 I t - 02

1.6VE U 3 . J 1 E 0 ? 1.16E- 13 ! . i * E 07

1. 60£ - U i . t H 07 1 . I Jt • tJ 4 . I 9 f 07 r.1J£ 14 J.O?l 02

\.?*f 1J 1 .131-01 t . F O E - U I.OOE-' I . O I E u n . m - o ? t . o r t u I . W E -

6.40E- 14 6 . 1 3 E O 7 6 . 7 6 E U LOSE i

0 5

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3 .oa t ,91E .JOE

•14 -14 •14

6 4

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-1 -1

1 . 6 5 1 0 ? 7.6M U J . i l f 07 7.EOF 14 1 . 7 0 ( 0 2 l .B5t 14 ?.42E-07 1 .871-14

8 .A4t-O3 1 . 7 1 E I 4 1 . 7 S E 0 7 l.l«l« 4.36E- I 1.14E-I

no

140

270

760 2S0

350

.1}

. 0

.0

. 0

.0

1.77E-1

7 . 9 b t - 1

1.09E-1

8 .35E-7

b 4 . U E 05

l . M F Ob

1.B6E 07

1 . 7 b t l b

l . O l f - IB

B.17E ?0

7 . b l l Ob

7.B0EO?

1 . 0 S E 1 4.4B( Ob 1.04

B.01E 70 4.80E 07 8 .00

O.OOF'OO O.OOt'OO 0 .00

1

1

70 %

•0(1

0

fl

:i«

. u t

.BOE

OOE

nnr

04

-05

-06

or

»oo • 00 •00

2.91E

l.OJE

r .89 l

O.OOE

O.OOC

o.oor

u

•18

- IB

•JO

?.?*E -0

A

1

1

0 0 fl

.rat-o

, 6 7 t O

sis

100.0 O.OOE'00 O.OOE* 0.001 ' 0 0 O.OOE'OO O.OOE'OO O.OOt'00 O.OOE'OO O.OOL'OO O.OOf'00 0 . 0 0 1 ' 0 0

' 0 0 . 0 O.OOt'00 0 .00b*00 O.OOt'00 O.OOE100 O.OOE'OO O.OOE'00

0 OOf'OO O.OOf'OO 0 OOC'OO 0 OOt' 0.001<00 O.OOt'OO O.OOt'OO 0 . 0 0 1 • O.OOt'00 0.001'00 O.OOf'00 O.OOF' O.OOl'OO O.OOI'OO 0 .00f *00 O.OOL'

- 3 5 -

•JAKKI I);iU',(\><k> 9-1 003

Table 3.5 Dose equivalent per source neutron and attenuation factor of neutrons in iron (1/11).

10" I ACIOB i i (JON * 10!«l

INMDINI HUjlfiON m i e C M N t U

IG.O 1 . 74E OB UE'OO 1 . I 8 E 0 8 6.0«f>00 1.141 08 i .99[>00 1.I0E 08 i . m » O O | .OH 08 l.WIE'OO

09 8.14CC0

? 1 . 0 J.48F Ov S. I7E 09 I .Obl* J . ; O I OH i . o j . o a c o« i , o « [ « o i

1 .fl I t 09 1.IIE'OI I . M E 0 9

41.0 t.OOf 09 l .OK 'O l 9. WE 10

10.0 f .49f- IO 9.JH-00 T.16E 10

1.60E 09 l . O K ' O I 1.11E 01 l .O i r -O '

'IE•10 7.761*00 J.*8t • 10 r.ODf •'

80.0 1.41E -10

as.o i.oac io I . O J t • 1 0 J . B I f ' 0 0

?0L*O0

'10 1 .0 ' JF 'OQ 1•b ?F- 10 4.94E(OO 1 11E - 10 4.^JE*00 10 4.iBE*00 l . ?4 t - 10 4.781*00 1.14( - 10 4.09E*00 11 S. f.'l'OO * • • It - (1 i.68(*00 8.6 9f • I I J.SIE'OO 11 i.?7t*00 7.18E I I 1.1 if*00 ».b?l 11 7.99UO0

•11 7.74E"00 S.48E 11 7.bBf <00 V.OlE-11 7.i4E'OO

110.0 9.80E I? B.7fc( 01 9 . 4 1 1 - 1 ? B .11F-01 9.0SF 17 B . D 4 E 0 1

14 0.0 5. Tt{ I? i. t i t Ql ).S6(-t? i.lTf Ul i . j i f I? ^Wt Ot

160.0 ? . O J E 1 ? I . 6 0 E 0 1 170.0 1 . 7 U - 1? 1 . 7 4 F 0 1 IBO.O 7 , ? 3 E - U I . W l 01

4.S?E I? 7.7OE 17

1 . IbF • I? 1 . .*?( 01 1 . 0*.f t ? 1 .6V1 01 .1 IF 01

. 0?t 01

' 0 0 . 0 7.601 l i 1.191 07 7 . i O ( - ! J S.11E 07

?80 .0

loo.o

4.J0F 01 I . l . ' t U 4.161 OJ l . l O t 14 4 .0? ( 01 9 . 7 4 ( 1 1 J .A« [ 01 I . B i t 01 4.J4E n i . : 9 t OJ 4.081 I I l . 7 3 f Ot 1.60E 11 I . l B E 01 r . / ? l 04 i . b ? ( i i t.bhf o« t . W f n ? , « O P n» I . J 4 ( - I I 6.74E 04

tO.O ? . *9 [ - It. 1.4 1.9K t6 i . : i f 04

lO.d J.1BL W S.-^flt 0^

IOO.O l . U l ! ' I.Ott 0 70.0 ^ . ?*t IB ».faOl Ob

nil.O 7.011 IB 1 .4*1 Ob ifaO.O <*.6U 11 8 , 0 / t or no.O ?.t>Bt 11 l.DAF 0.'

l . * « E I f 7 , ' ,* l OS

1 . J H H 1.081 0; l .OJI

IB 1.111 Ob

i« t.o*t D:

1.." -, I

? . J I I

t . Olf 4 . ! • ( 06 4,0?( 1 .AH Ob 1 .*j4t

f . b l l 0.* S.8/( ?.V1t o : 7.U6(

' . 1(11 Oh

Table 3.5 (Continued) (2/11)

Hi *M0 AtUNtlAIHlN ' .ICtOR

INC I DI MI Nttf

n . O 6 .11E09 '.99E

JO.O 1.96F09 1.0?E-J^.O I . 47E09 l . 0 0 ( '

5.SB( 09 7.91i«OO

1.3U

1-J*l

•00 l.i. 'E 09 r.B0[*O0

9.0iE*00

B.ROt-00

fcO.O J.7?t • 10

0.0 1.8JE-10 1.0 I.JBt 10

110.0 7.01f•11 170.0 1.191 11

40.0 4.oat -1?

i JE'OO

l l l ' O I

1 . 7 0 C * 0 0 8 . B V E - 1 1 J . i l E ' O O 8 . 0 3 1 - 1 1 J . J S l ' O O 7 . J 6 C - 1 1 J . ifaE >00 6 . 6 B E U 3 . 0 7 F - 0 0 b . O " j t 1 1 ! . B 3 ! ' 0 0 S . » » f - 1 1 ? . 6 ? f * 0 0 l . y j f - I I ? . i 6 f * 0 0 *.ibf • 11 ? . J i f ' O O » . 0 * t - t l

1.B6F 11 1.0SC ! l

1 , 3"i t ' 0 0 i .bBI- I I l . I ? f '00 1.J0E-M 1.1 7f '00

9.J1F-01 9..'OF 1? t.rst 01 8.6JL-17 8.OH 01

1.JH-J1 ?.blf 1?

1.1H-0C

• .BH'OO

«. l b t ' 00

J.04(*00 7.181*00 7.171*00 1.8?t*00

I.Obt'OO

J.bfcE I? 4.1H i)i I? 4.071 01 7 , 8 « t l ! l . fc i l 01 J..1H IT

160.0 1.4?[ 17 ! 170.0 8.J8F11 1.40E-01 180.0 4 . 9 8 E U *

TOO.O 1 .78E t l 4 . 1 U

-bOt U l . M f 01

I I I . 7 6 E 0? 1.J8F II ] . 4 1 . 1 9 I U J.08(-O7 l.OJI IJ

140.0 I . 64E16 l.lii

190.0 ?.J9Ft7 1.991

t70.0 l.SOt 1ft l . l f l

t40.0 l . J 4 ( - 1 8 1.101 460.0 1 .17E•1" b . ? b l - 0 /

! ,01E 04 1. ??f 1h 9. l / ( 0% 4 . ? 6 t o i 4 . r a f \r j . s e f o*> I.81E 01 1.81F \r l .bU 01.

l.Ohf Id I . IB t IB 4.4Ht 11

is i .m ab

i.oit n 8 . i i t 4.17C-17 J.«4f 1 , l 7 t 17 1 .471

? . J I I 18 ?.m a.art 19 i.nt

9.111 If /.08I 1 . 1 4 1 • W J . 0 K

i.ill if i.?ui

- 3 6 -

.JAKKI - Diitc -Codo 9-1 ()(«

Table 3.5 (Continued) (3/11) 00 SE EOUlvAUttr A NO H MINIMI I (IN MCIOR '

iNC iDmr MIU 'UON o t a c v

? . 0 1 1 - 0 6 ! . 4 b r > 0 0

H All.1

7.00E OS J,«OC00 I.941 01 J.J«('00

I 110.000 100.000)

H A l t . }

1 . B « OB J . J 1 I *00

MOO.000 90.000) M M l . I

!••«( OB J.?6f'00

15.0 4.871 09 r.211.00 70.o j .o ' i -m 1.1 n '00 75.0 ?.Obf 09 6,60['0O 10.0 1.441 -0<) 6.6U-00 09 B. lbt '00

r.BJi'00 r.fsi-oo i . l i t - 0 9 r.om

40.0

50.0 I.97E 10 6.57E»00

60.0 ?. I Jf-10 S.IOE'OO b5.0 i.ilE-10 4.44E*00 TQ.O 1.WE 10 J.JJE'OO ' 5 . 0 B . U E W J.Z!"E*OO 60.0 *.J?f-(I ?.?8t*00

1.9?f•10 4.691*00 t . * H 10 4.061 <00 1.051- 10 I.4BI*00

1.28F 10 J./JfOO S.*1E 11 I.ISE'OO

1.671 10 * .0 f [ -00 1. I*F-10 J.JOf'OO B.Mi 11 ?.1BE<00

*.sn*oo j .eor '00 i. r t t ' 0 0

90.0 J . b H I l 1.9 95.0 7.T4E-11 1.6

•[•00 ,E*00 ?.40(-11 1.4/fOO

I.BIf M 1.711*00

I.S7E 11 1.91E*00

7.17E-11 1.37E-0O

4.32E J.19E

7.1«E*00 l.«6E>00 l.tJE'OO

1.1?E»OO I.JOE 01 t.JJE 01

120.0 i.mt -17 6. 110.0 J.B7E-17 4. 1*0.0 7 .70 (1? 7. 1S0.0 1,??£ I? 1 . 140.0 r.J4E-1] 1 .

10.Q 2.1TE-

l/E - 01

'6E -01

1 .4JE0?

(00.0 ».<••£ 0.0 j . U E -

1.8/E I? 7.49C 01

i.JOt tj 1.0IE 01

J.10L IJ 1,111-0?

f.J?E I* 1 . 9 U 0 ?

1.4 IF 17 ?. I8t 01

I .79C-1! 4.07E 0?

* .?JC-1* 1.77EO7

1.4JE-12 1.91E 01

4.r/E•13 fl.5J£ 07

1.6HU i.kit o:

i.ilt t* 1 .1*EO?

I.79E-I

*.2JE

? t.?«E-01

IBO.O l.iOC 1i 7.KSf 04

l.kOE-0! 6 .01E0 I J . J K 0 1 I.11E-0]

uo.o r.irc-w t j i c 0.0 J.07E'11 7.I1E-

1.161 U 1.111

i.9M ir i .nr 01

470.0 i . / o t - IB ?.oor 06 4*0.0 6 .SU • 11 B.45E 0^

! . * ! [ - IB 1 . F 7 I O t 1 . 7 * 1 111 1 .'.OF Ob 1 . I7C IB t . J f l t Of.

T.iM ?0 1,161

!.*0t

« .OOE

Table 3.5 (Continued) (U/11) ' IRON

f«BCV[MtVJ

70.0 7.36E 09

0.0 1.0*1-09 6.741*00

J5.0 f . ? J F 1 0 6.I6E»00

09 b.5«f«00 ?.17E 09 6.75t'OO 1.93E 09 5 .8 ] ( 'O0

10 5.11CO0 10 H i t *00

7.61E.-1O 4.68E*00 ? 191-10 4 . j r { * 0 0 ?.?0f 10 4.06r*00 7.0/E-10 J .6^ t *00 1.93E 10 J.6J1*00 15.0 l .a iU - 10 4.D8E*00 1.T7I 10 J.?Sf «OO I .^Jl 1O J.^?C>00 1 . * « 10 J.JJt 'OO 1-JH•10 J . l I E ' 0 0

^-0 ^ . J U - 11 7.14t*00

o.o HOE ii i.m«oo

SO.O 7 . 1 7 E 1 I 1.73t'OO 1.89E 11 1.1?£*00

1 . 9 5 1 1 ! ? . U [ » 0 0 ^ . ^« f 11 7.07E-O0 V13F

4 . J J E H i .aoF '00 4 . o j f i i i .b iE«oo i.;?t J. Iff II 1 .SOE'OO 2.9*1-11 1.4OE'OO ?,T\i 7-jrt 11 1.!*E-00 2.1^1-11 1.ifeE'OO 1.9RI l.TOE 11 I.07E*00 I^Bl II V i J E - 0 1 l.4^E

11 7.76E

11 1.B4F'

100.0 1.WF 11 B.41E.-01 l . 0 « t - 1 1 7.60S 01

120.0 J.S9E- 12 J.m-01 J.18E-1J J.J3E 01 UO.O 2.O7E 17 ?.4^E-0l 1. /BE-I? 7.191 Ot 1*0.0 *.14E 17 1.60F-01 I.OOE-t? I . 4 i ( 0 (

l.SBE 12 t . l S E O I l . t H U I .S4E01

«.?Jf IJ l .?fF-OI « . ? 7 f l J 1.70101

17 l .JOl-01 IJ 1.111 01

160.0 J . 7 7 F U b.84t-07 170.0 ! . l l ( IJ 4 .46E07

190.0 / . J s i - !+ | . 1 0 t 0?

1.Bit 1J 1.9HE 07 1.6BE U IJ J.10J-07 7.OH 07 I .J1I 07 fl.,'6f OJ J.fBI 0!

IV 1 . fbk OJ J.7TE•

I1.1 1b I.84L 0* inF - 16 t.<i?f -05

7.ME -16 1 .661 04

06 ?.Qtf-

01 1.76F U 1.70(

06 ! .(M 18 ?. 19f

7.1IE I* 1.4?£ 04 I.f>(

I.16F W 1.121 0^

1.7?I 18 7.0%t -06

?.!7f W ?.«6t 01 1.071 1/ l .OU 0}

I.%1£ IB 1.911 Ob

440.0 <..*!> : f 4 . ; r t

460.0 i . J I t - I f 1.411

480.0 4.6IE 70 7.6JE

i . w i • i t i -nof o/ l . o u - I 1 * t . b * i ' 4 . t i f ?o 6 . v i r o B i.rtn ;o fc.joi

- 3 7 -

.JAKK1 '"Code 91

Table 3.5 (Continued) (5/11)

SO.OOOI A l t . F

3.001<00

I HC I Of HI HiUtROK El 77

*> 0 .000 4 i . 0 0 0 > H A I T . I

l . i n 08 ?.9JE<00 N. ]1 ( 09 4 . t t t <00

l . t f t L OH i . l l l 0<i

0 . 1 [ / ( 6 f

000) . f •00 • 00

> 40.000 H

l .«7t 08 « .»« 09

! S . A r t

7. Tit i. rbf

000 > . f •00 • 00

< JVOOO H

I .JSt 01 4.101 09

7. J .

30. At 1 bfl • i t t

000 .( •00 •00

1 . H i t OS 1 . V* (>00

I . f l l 10 S.JOE'OQ

1 . M l OV

/ . ? 1 f 10

so.o

60.0

TO i . 4 i f > o o l . t ' . L 10 3 . 1 / i '

.09E1I 7.49(*00 B.3JI 11 7.311'00

ro.o Ti.a

1 ? . I * ( ' O O

•*o.o

I . ?lf0Q !.?n W 1.171 • 00 ?.08t ! 1 1.031 '00 1 .OOE'OO 1 .6">F • 11 9.191 .01 l . - i l t M 6 . 4 / ( 0 1 S.71I 01 I.711 II f. i*t Ot I

100.0 110.0 170.0 UO.O 1*0.0 tJO.O 160.0 iro.o 180.0

.7?r • i?

. 8 / t l J

. t t i IS

J.61E 01 ?.*0l 01 i . i r t o i l .OJt 01 6.tOL 07 4 . J « L o? 7.86EOV i . s a o ? l . ? J f 0?

1.861

r u

9 . * t ( 0? b,\">l 07 * . J ? f 0? J . . '01 OV

.84(

.711

.am

. t i t -. J7C -

1 . ? 4 f

e .n i 10 ? . * 4 L * 0 0

"••OSE'OO I . /6C00 I.*«F*OO 1 .JIE'OO

fl.47( 01 6.97E 01

/.Obf (*? 4.6?( 1)7 J.O?f 0? 1.9Kt 07 1-JOI R.%4 1

7 . i M I.1 7.111

i . / a t Ob

j . ni or

i . j n in \.h ^ . l ! l i t * . i i . ' i l l i"» ?.«»

r I.n 1.601 o

Table 3.5 (Continued) (6/11) 41 I f fcuMJOU r - l l T

I HC I DC HT NfU 2T

oo> ( ?o.ooo

1 . l?l 09 J.blf DO l . O i l J . J M iOO 1 . 101 09 J.t, l .*0(

10 7.Jlt '00

>.O ? . 8 ^ L - I t i.3 ?.Obt I I kO 1.49E 11 i.O 1.091•11 1.0 ? . i 4 f 1? .0 s . a ? t - i ?

170.0 I.JOE 17 T.7.4E 13 * . 0 8 ( - 1 J 7.3JL 13 ).J»i 1J C./ei 14

1.oOt'OO

1.IIL'OO

fc.m-o? 4.WE 0? ?.?JF. 0?

i . j : t - i i / . o u o i

*.1?F•17 3.SM 01

?.1!E 13 1.1TJF \1 r . i i F i*

4 . b J t I.SOI 7.in I.ME 1 .?4f

1 . JU'QQ 4.T0F I J.IJI 'OO 7.V«E•

17 I . i l l 01

J . 6 * f 0 7 I . 9 3 E ! . V 7 ( 0 7 1 . l l E

1. l?t 11 -..Ml

%.sn 0? i . o n c

1. l? \ «00 A.971 I I

1.?Jt <00 4.«3( -11 l .OJf " ) n J . i b t 11

7.771 11 f .09f 01 l.E>4F 11

1.111 i.lOf•

11

4 .b i t 17 1.4?; 17

I.OJt I? !.??(

.90E -07 ] . ?« ( 13 1,1)1 13

U j . i u o : i.o/t i3 J . *

?40J 7bO.I

7.101 l i r.Tbf I t ;."jot ib }.09t - 1 * ».1JF I T i.sat u

S.b7E 04 4 . 1 8 1 04 i .sic 04

J.J.'f -01 i .46f as

? . t , t ( | b l . t l / l

3.(10! 1 / 1.461 1 /

3.171 01 1 . IM Q-i

Z.VA

y.tn

4tl 0« ,S0( 04

i . j i t u

J . 4 3 1 - I I i . m '.<> \.Ohl 20

4.87E 0 / ; .04i or I . M l 08

J . I K 19 4 . * b f of . i n r o / ? . b ? i

•4( 70 r.r.i us t . R « t 7 0 « i . b * ( Oft

- 3 8 -

JAKKI - Dati'/Codc 94- 003

Table 3.5 (Continued) (7/11) I01M NEU1N0H

( 1T.S0O - 14.900) ( 14.900 11 CM I H A l t . F H

5.0 l .TJf-OJ 7.14f.OO l . l tE -08

1?.?00l * i r . r

10.000 - 1.1*0) H * t t . f

7 . W O O 3.«8t*00 ?.J1(*OO 7.IOC*00

10 1.»7E*00 J.ftIF

JJ.O 7.S5E 40.0 1.T3E-

>9Et00 7.21E1O 7.?6E*UI 1.SIC 10 1.94E-00 1 . f i t 10 1.I7E'00

• I I I.I9E>00 S.75E 1.7JE'OO

• . ? « -0)

75.0 1.511-H 7 .07C0I I.JOE- I I * . I Z £ - 0 .S4E- 11 k. JJE01 I . 4 J E 1 I }.»4E-01 1 . U l ' .HE-11 5.74E01 I . O J t l l 4 .17E01 1.051

II t . l ? E 0 1 II i.O^E-01

4 .UE-01 BS.O 7.94E-1? 90.0 S.BOEI?

100.0 J.1«-l? ?.61f 01 110.0 1.7?E-t? 1.77EOI I.49E17 l.SOf 0 1.77E-12 1.79E01 1.I7E-12 t . H E 01 I.70E- 17 1.74E-O1

no.o i . ME- u ] . HE o? 160.0 1 .8UM ?.0«-0?

190.0 1.99E

7?0.0 ?40,0 1i 7 .« IE0« 1. JSE1S k.SOE-Oi

I .31E-0] 1i V.34E-OI

JIO.O J . l t E H 1.40E04 1 . 8 / t l t 1.71E JOO.O 8.17E-17 k .O lEO) f .0»f • 17 T..JOE-170.0 1.O8E-17 7 . * IE 01 I . 6 H H 1.7*1-0'

H 1 . C U 0 4

i . u c - o i j . i o i - i r

JtO.O 4.«9E-i i o . o i . r j c -

I I ! . I7E-Ob J .O ' t • I.44L 0*

3 ,« rC0h y.*ti -o»

400.0 I.J1C 70 7.-.JE OS l . l i t - 2 0 7.271 0 .811 21 1.90E 01 kJ t -70 T i l 71

Table 3.5 (Continued) (8/11) DOSE tQUIVrtlEHI AKO ATtENUAMDN F AC fOB

INCLDENl it J6 17

( 8.190 • 6 . /00 I ( 6 . /00

/ I RUN I

I rHEHbV(K[V)

101*1 HtuTftO*

./OOl !(CH) H « I I , F H « r t . f K I H . f H .11T.F It d l l . f

HE OS 3.1iE-00 I.OIE-OS 7.16F*00 1.ObF-08 7.16F*aO I-07E-08 7.l*r«O0 1.OIF 08 7 . J l t ' 0 0

IGE09 7.61E>00 l .JBf 01 7.58COO 1.J9E09 7.S$E*00 1.3 7E09 ?.*1it '00 1.«?E 0* 7.«*E*0D 10

«0.0 l.?Jf-10 1 -4«E'OO «i.O B.41E-It 1.*6E*00

1 - ?JE -10 i.b*[*OO B.4JL I t 1.»/E*00

1.7iE 10 1.64E*00 1.751 10 1.77C*OO 1.79E-10 I.IHE'OD

5.99[ 11 1.77F*O0 i.95E-11 t.78E»00 fe.lit 11 1.40E*0D

70.0 1 . 4 9 E U 6.77EO1 1 . . H -11 b.OTl 01

17 1.76E 01 1.771 17

160.5 I.99E-

•40.0 1.I1E-fbO.O 4.0VC-780.0 1.1JE-

I .1JI 0? 7.07t 14 I.'.OFO?

1.14E Ik 1.001

11 6.08E-01 I.IK'U

1.75F 17 1.74E 01

I.SOt 07 7.14E-14

I.WE U 1 .00 (04 I . W f Ik

!9E-01 1.771

5.7fcE-01 4.74E-01 J.S91 -01 1.11E 01 7 . t a t - o i 7.14F-01 1.41C 01 %.in o? k.OfEO? J . « l 07 ?.* l l -07

14 I.ME 0! 1.l?t 0?

*.«bl 01 J.71E-01 1.40C0I

1 7 0 . 0 ? . 1 B ( -

JIO.O K77E 400.0 *. r n 470.0 u a i t -

/ 1 , < t U O-i 7.7OE U 1 . 8 7 1

J.?Ot t t 1.7JC• 1"

70 l . i b l 0/

480.0 9.40t-71

/ . O i l 70 I . I J f 07

».* \ f 71 1.871 08

3.78F IB ].««( 0( 1. 7kt |R 1.481 Q«

7.191 to l . U f 07

1 . * « - M 1.BK-0B

1 . ".tf Oh 1 .?Bl IK

7.1bt 70 1.1*1 07 7.101-70

- 3 9 -

.JAKKI D.itc 91 ()o;j

Table 3.5 (Continued) (9/11) j t i i iHUA i iuH t f t t row

• J

»<C«» H A l t . I .1 M l . l H « l i . l M A l l . I i, , i i . | 5.0 I.Or[-OB ?. b?f «0O I , O M OR 7 . b ? t >OO I.071 OB ?. i?f-00 1. 94( 09 ?.4] [<00 4.07t 09 7 1BI-00

10.0 J.1JF 04 J.061-00 J.OJl 04 l.OH'OO 7.171 04 7.891-00 7.90( 04 7.8J1-00 7. Wt 04 p^tCOO 15.0 1 .SOt 04 J. ?•)[ *00 1.4)1 09 J. i", [ 'QO I . J*)( 04 ] . 101-00 1 . 4l( Qt J . H I <0Q I 70t 04 7 . b i t ' 0 0 ?0.0 S .HF 10 J.17E-00 <p.fl1l 10 J . i4 (>00 7.^91 10 J.OOL-00 B.OOE 10 I . 1 J l '00 6 1*1 10 7 ',11'00

J O . O J . 0 4 f - 1 0 Z . b T f - 0 0

iv.o i . sQt - io 2. jai<oo »0.0 I . J4E 10 ?.101'00 1 .781 10 7 . 0 / 1 ' 0 0

1 . "i6f -00 6.1H I. ' , 11 • 00

7. 101 10 ? .M( <0u l .«4 f 10 ?.7*1-00 4.9JE 11 l . 4b ( -00 b,»JI 11 1.641-00

T.llt'00 1 .89*-00

i .or t to i.6

J . 16E • 11 1 . I 7 E ' 0 0 ?.?FF 11 fl.jre-O!

0.0 l.bJE- 11 7.80E 01 I . IBE 11 t.*bt 01

J.04E • 1 I 1 . I If «0O 7.7IE-IT •/.JIl 01 I.'.AF I I . \ :» t -O l

J.Oll- I I 1 .08f00 ?. I8(- t l 9.091 01 i.ibf•ii r.irr 01 1.1Jt - 11 t. lf l 01

i.*n -11 1 ,??t-oo

l.-'BE I I 8.V?f 01 i .? i t 11 r.obi 01

l.07F*00 S.Jbt 01

I . m I I T. ill

l .?5( I I } . « 0 l B.9H 17 * .Bbt

I . H E • 17 7.47E 01 100.0 ? . * * F - 1 7 7.»0F OT

I . 1 U 1 7 l . JS f 01 •0.0 / . ! » ( U 1.0*1-01 0.0 «. i i t i J b .a iF 0?

(•17 7.S4L 01

1 .791 1? 1 ,16( 01 r . 1 IF I J 1.OJf 01 J . V B t • 1 j 6 . * ? t 07

I .711 -17 1 i * f 01 t.iOt U I . O i l 01 1.4 f t 13 6 . b » - Q 2

1 . 6 1 1 • 1 7 J . l S t 0 1 t.tffl? ?.bOt Of \.*\i 1 7 1 . 7 1 1 0 1

7 . M r 17 7. 161 01 t . a i t i? 1. ?<tt 01 1.011 17 1 .181 01 • . . b i t U r . B l t 07 1. n( 11 j . n i o ? I . '"»l I J I . » O F 0 ? I . O J I 1J 7 . ? * l 0 7

*.!?( I * l . ? J t « . . ' « - ! * 1.Til 0? l . t f l l 07

80.0 7.A0E 14

J.VBf 0 } B.971 1) J . W I i . v . i O J i . : u n i . I M

14 •> .171 Oi 1 . t i t 14 ) , l ! l 0) n J.voi OJ s.i?f n J.84i oj i"» t. J?i OJ J. wf n I . I M 0!

.JW 07 J . > 1* J» 9. f l i» OJ

. ? j [ ! * 4 . i o i OJ

7.JM • 1/ 4.0RF lit

7 , j ' f o i : . J»t i.oii os n.iin

IbO.O J . »bl IS JAO.O 1 . I I I IS , I -'I U 1 .t,M Oh I . I" t

101 0\ 't. ' I t IS I.101 ')'. ' •<•! 11 <t.Jhl Uh ".1 "b t .b . ' i Id * 641 Oft /.hit IB t . V . I •>" .'.( k>ii i :PI( !« i .^ i i i Of. 1.4.M i <• i . i n ui,

J . f U t •'.••) J .•-".•(

Table 3.5 (Continued) (10/11) •U 'FNIIAl ION ) ATl.'jU

i h t n t t i i K f u i '

l o r s i nfi .*eoit

I 1.113 0 .10.')

1 . i 4 l -JO 1S.0 I . O n -01 ?. J71 *00 1 .« ! { ?C,0 ^.*bE TO ?.23t*O0 8.0**f 10 1.14F-3O :^.O J . * l [ 1 0 7.06F *00 *.•»") t 10 J.:tfC0 JO.O 7. l^E 10 I .Bf£*i)O J . : 0 ( lO 3.0*1 ' "O

-01 J .b i f "JO r 04 4.0Bt "JO a . ^ * t to J . J B t - 0 0

1 ,»0t • 10 1 .b .ME 10

j . f l f l i i o j . a a t «oo ?. ? i f i o i . ? i t *oo ?.*-T 10 3.%6f *00 1.411 10 * . 1 ? f - 0 0

•00 .0 7 .711-11 ' . ' I f .0 1 . >fil 11 6 .*">t

.6?E 11 1 . ^ ! «00

.0 8.191 17 4 .Hbl 01

.0 5.111 I? 3.bAf 01 .0 l . S I M ? J.OJl 01

i . J * E n r.tn o i

r . ob t i ? •>. i f i o i

- 17 I .O ' t Ql 1? b . b l t 01

J . J " f • 1 7 » .40 l 01

1 . Jf t 11 I . 1 JE'OO V . t l l I? * . J."f 5! b.SJE 1? f . bJ I 01 *.40( 17 b.I?! 01 J.w I? ^..'o^ oi r.wt 17 «..v( oi 1 .flflt 1! J.-iCf 01

1 . ? J F - 1 ! 1.6*1 01 ! . . ' 1 f I ? ?.«4( 01 7.?Tf \7 J.Jf l f Of 9.HE U l . i l f 01 1.W1 1? 1.911 01 I.ME 1? 7.J71 01

0\

JO.O J.18E-1J

9.94i u i . f l i t oi j.;r>i u i .boi oi *».Ml 11 l.?*f-'11 J.761 I I I.Ollt 01

J.O I. 'OE-U J , ? H 0 ? 7,1 ICIJ "i.*Ot 07 7.bOE 1J 6.J i t 07 ).O 9.75E 14 3.17E07 1.4it 1J J.V71 07 l.«BE U 4.U61 0?

1. " * t -1 J *>.•> tf 0? 1.OH U l .b t t 07

4.«ot or 3.JOt 07

0.0 0.0 O.G

0 .0

0.0 0.0

3. I. I.

7.

J. f.

3i r

161

• 9F

»0[ ?ei

14

•>

- 16

«.?5C OJ b. 1 it 0(

1.1/1 OJ

4.6iT-ll i

7

J

>

.401- 14

.bJf v,

.B*f t*

9.101 OJ

1.5?* 0*

J

. .or , . 1 .

7.

• •

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UF 01

7.011

?.6bt

1 * 1

7

I

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.ObE

. , «

07

OJ

0*

I.JM I i

i.aoi n

9.451 1?

1. 50* 1 .011

2.001

1.701

0?

OJ

04 0*i

7 0 . 0 I . a j [ 17 1.B 7.b?£ 1 ' ! . « H

7.6JE IS 1.?<H 06 J . / b t i n ^.141 9 . 1 4 ( 1 4 l .?B» 06 I.JH I I 1.V4I

?.6<E ir i. jot o

! . .'41 \H % .•)«! 01

1.9B( \T l .?4

:.6»t 18 \.»*

iQO.O 0 . 0 0 1 * 0 0 O.DOt • 7 0 . 0 0.QOt'00 Q.OQt • O.JOF'JO 0 . 0 0 1 "JO O.OOf "jo O.UOI

i r j .70f O1, in i.J.M 01

O.OOl'llQ 0.001 *00

O.OOf UK) O.iiOl " t o

0 . 001*00 O.OOt'00 O.OOt *GU O.'^OI "*JO

- 4 0 -

.JAKRI 94 003

Table 3.5 (Continued) (11/11) 0051 t0UlVALEHI A t l t X U * ! I D H FACIOH IOIAI htU'flOH

i o . o n.o ?0.0

H *[ I .F 1.19E-09 7.791.00 i .o<t-09 j . *51*00 i . o i E i o s.ni'Oa

J.S*f»O0

?.?bl 09 b. WE -10 i.o?t 10 I.Hi 10

71.0 1 .S i t - 10 i.?0F•»

A l l . t 7 . f l l l » 0 0 i .?rt*oo J.JBI»oo J.IJf'OO

4.08t-10 J . l f t t -

).0?f 10 i.J/F*O0 B.BflC - 11 7.7b[»00

A I I . r 7.61E'OO *.04t «00

i.49F«00 i.5b£'00

a.toe IO 7.e«(- to 1 . 7 i £

i.?'t • 1. Wf " T.61E"

.7*1•11 ?.7«t*0G

5.9oe-i? s . i i e - o i 0.0 4.7JE-1? 6 .47101 5.0 J.OH-1? 1.6BE01 o.o 7.74E w * . r j f o i

90.0 1 .?JE I? J.?B£-01 I .OI t 1 ! ).>'U 01 16 \.iOl01

110.0 l .SJE-U 7.41E 0? 1.0*f tJ t.ltt 07 9.70E 14 1.J?f 70 I . « I I or

II J : J] 1* JJ J*

uo.o UO.O

7.14E07 I.SIFOJ

t .VJL '1 * UUI l»

*.J4E 07 J.II t-Cl?

1.i?F ?1 1.10E-0* 7 .0 f f -7J 1.1*1 0*

110.0 i.OJE 4.7IC M 1.J1E 0 700 ?70.0 1.J4E11 7.MI OJ 7*0.0 4.99*•It 1.»fF-0» 7*0.0 1 . I7EU 4.1*[ 04 7io.o r.obt tr i.i7E 04 ioo.o ?.»«{ i ; r .Bjc-oi 170.0 i ,0 ! t -xr i.4ir oi J40.0 j . i b E - t a i . * f [ o i 1*0.0 1.46E 18 6 . l 4F0b 110.0 1.09E 19 ? . *7E0 t

k.oir is l . O f a t - l l

4.OIF 11 7.101 Ob l . » M » •.11E Ol

4 70.0 O.DOt >00 O.OOr'00 0.00[<00 0.001•00 0.001tOO O.OOt'O

J. ! « ( • ( * J.J7E-01

o.oot'oo o.ooi

0.00(<00 O.OOI>00

O.OOF'OO 0 . 0 0

0 . 0 0 1 ' 1 ) 0 O.OOI

Table 3.6 Dose equivalent per source neutrons and attenuation factor of secondary gamma rays in iron (1/11).

DOSE tQUlVALENl AND ATIEHUKTION FAC 100

(400.000 - m.oooi < C N ) H II I.f i.O I.JOE -10 l.t.lE-07

(jn.ooo

1.77E 10

1)0.000) Ull.f

< JVC000

1. 1.' E 10

37^.0001 A i r . r

1.MI-07

<J?S.00O 100.0001 H ATI.f

I .HE 10 1.5JE 07

(300.000 - ??1.000) H * n . F

1.09F 10 1.121 07

70 .0 l .bbE -11 J . J U - 0 7 7 i . O l .OB l U 1 .31EO7 JO.O 7.45E-1? 1 . 1 4 E 0 7 11 .0 5.47E • 12 I . J I E - O ? * 0 . 0 ». HE 17 1. j e t - 0 3 41 .0 J . IBE 17 1.71E 07 10 .0 7.10E 17 1.17L 02

7.00E-17 J.OIF 02

1.30F -17 7 . / 1 E O 2

S .HE17 1.91F 17

HE -17 ?.1M 07

7 ?.6Bf 07

1.871 17 J.??l 07

4.9?t I? J .70( 07 i.rrt i? i.\n o? 7.97 t 17 J.ilt 07

1.8*1 • 17 7 . * m 0?

1.11E 1? ?.bSt 0?

l 17 3 .19E 07

E 1? I.lit 07 ( 17 J . i7 t 07

7.79E 17 J .0K 07

I . ?\i 17 7.BTE -0?

f- 17 7.b i t 07

B.9JE

* .«8F

7.67E -1

J.06E 0 ! l .O l t 0?

7 . 6 ) 1 0 7 7 . V ? l 07 7 . J T I 07

100.0 J . i l l i:o.o ?.o« 1 7 0 . 0 ; . J ) (

1.74E 07 9 . 6 M -03

WO.O 1 . 5 3 E - M 7 .70 f 01 180.0 1.79E 15 I.IBt 190.0 6.7*F-15 1.17E-700.0 I.98E 15 7.HE 04 770.0 1 .tOE - 15 J.C f*O.0 b. J i t 1b 1.S7F 04

710.0 «.14f• 100.0 I.SAL 1.141-01

ito.o i.irr II i.44( lbO.0 7.171 Id i.-iOC i«0.0 1.0/1 11 b.)lF ' 400.0 ).i«r ii ;.i7f 0/

4*0.0 f.oti ?Q ?. i»r on

1.97E-I1 1.771 07 l.7-)t U 1.10F 01

l.iflt 1) 1.101 -01 1.H71'I) /.HOI 0* I.Sit li 1.7SE 04 6.0«*L 1* 1 , ; i t 04

HE ID I . l i t Ob 71t 18 \.-Hl 0(.

I.09F I I 1 .741 U

1.41(•1

1.tbf 1 j .b . ' f 1.4/E-

I.JOE 0? 1.4U1 01 r . 7 1 F O 3

1 . 1 ?E 7. l i t

n l.TM 16 1.7BF

J.11E Ob 1.4(,( Ob

1.(01 U t. l i t 11

1 . J*t 14

l.lFtl 07 l.?1l 01 r.Obf-01

7.01 ( OJ

>.*6t IS 1.07E OJ I.48F 11 ? . ) l t 04 1.11E 11 l . b l f 04 V.MF 1b 1.?Jt 0*

1.70F IB 7.071 - U

bit 0)

711 Oli

J.flOt•1J 1.?!( 07 r - o j

1.6ft 1] 1.101

i.oor i.mf l.?7f

1.11(07

nt oi oat oi

tM 01 1.911 01

7 .1U 04 1.4t( 04 1 .671 04 r.sot oi

\T 1.4lf 0) \r i.iif 05 U b.ROt Oft I I 1 Oil Ofc

- 4 1 -

.JAKKI Date. 00:t

lOSf ( Q U I V A L t N T

Table 3.6 (Continued) (2/11

^.0 l.Olf 10.0 4.1fli l i .O 2.?7t 7Q.0 1.JOt 71.0 10.0

9.MI 11 l.ASf I I

1.171 0? l.*H 07

a.B*( 1 l l ,«M 0?

If 11 7. tot 03

•.0.0 11.0 60.0

1.111

1.77(

4 . i l f l . IOC 4 . J 1 1 '

b.Otl

i I.SOL 0?

J 7. 1 1 .•

4.011 1J 1. 1.701 1J 1. 7.bl< U I . ;.W( ti i.

no.o no.o 1JO.0 uo.o 1)0.0 160.0 1 tO.Q 180,0 190.0 700.0 730.0 7*0.0 300.0 7S0.Q 100.0 170.0 1*0.0 iOO.O Ifli

1.JH

I . l i t 7 . M l

I.: i

/ . ' I * I 1.111 y.tm 7.V.I i. MI 4 . f J !

l . b O i 1.4 11 t. JII

4 . 1 ) 1 1 ,0*1 / . 701

. IB f

. 1 71

. Ahl

0 J

01 01 1)1 0*

7 1 1 /

Vfa AYt 701 bOI

111

J A . ? 7 t 0 1

Table 3.6 (Continued) (3/11)

1

1

1

1 b

10

1 1

13

1 j n l i l h

u 18 19 70

71

7t ;a 39 JO 31 33

36

IB

40 * 1 43 *J

HiCK) 1.0

11.0

31.0 10.0 11.0

41 .0 ;

1

6

I

8

1 •i

q 10 11

1*

1 / IS

So 33 34

31 10 1?

0. 0 1.0 0 . 0 1.0 0 . 0 1.0 0 .0 i .O 0 .0 1.0 0.0

0 .0

0 .0 0 .0 0.0 0.0

0 .0

0.0 0.0

140.0

lao.o «00.0

11 tUQ.000

I,

».*0l

1. /OL

6.011 * .O'f 7.911

l .bb l -1 . 30t 1 .011 «.7J( b.6Jt 1.3M 4. 14(

1 1

1 7

7 3 7 ; 7 ?

? 7 3 ? 7 7 3 1 3 1 I 1 1 1

3.171 • 13 1 ?.aot 3. !?( l.SSf

i'"(

1 101-4.7af 3 ,b i t

3 .Si t

3.

3,

J . 1 ,

m

u -1 41 1

3 1 S 1 3 1

4 7

1 1 1 9 1 0

b 9

7 1

4 1 9 1

140. * I 1

.401

.541

.iif

.441

• J ' f

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.an

. i n

.IUI , / M . M l .•.01 . i s r . 711 . HE

1 4 [

. t i t

.34(

. 4 b (

9a i

OBI I 7 t

000) .F 0?

07

0? 0 ?

07

07 07 07 03 07 0? 07 07 07 o;

• 0 3

01

01 0 4

0 4

0 1

01

0 ' 0 '

( 140.0fl<] H

17

AT 1 T. 9 b l 1 1 1 . .111

1 . l " » l

i.ier J.MI ?.(.r>l

I.11L 1.1RI 1 9. i l l 1 I. • .' f b.OII *.Abf I 3.9JE 1 J.191 1 3.1BF • 1 7.091 1

:i: i.ni i

«..00t 1

1 7 . . , . .

7 3 . i n ? 7. :"n ? l>.71f

7 7.0IH 7 3.0(1! 1 1.171 1 l . f l l l 1 1 . /it i i . b? r J 1.101 J 1.J9I 1 t . 7 / f 3 1.11I I 1.04 1

4 7.101

i i. mi j .m ii s.?i( 3.m ii s.m

7.301 1

1.311 I

3. /7( 1 I.Olt 1

6 A . 6 3 *

/ 1,/lt

1 1 . 1*1

IN 1 1

000 >

o : '17

'17

o ?

11?

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0 7

07 07 07 nv 07 07 o;

01

01 0 *

0 *

0 1

0 \

0 /

0 /

, . ,

11

.

A b

a 1 ?

,

1

1

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3

1

7

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. - , o .

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. * ' . *

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-lit • UBI -*.*f .8 If . 411 .4 U .".11 .111 .111 .'101 . 1 4 |

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. m

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, . ,

R l f

1M Ofll

' I

11

17 j ; 17

1? 1? 11 11 t | 11 1 J U 11 11 1 I

14

11 11 u

i r

i i 70

11 110. A I 1

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7.111

3.741 11. 1 '• I v o n

- 1 4 ( . Jtfai . ' 8 ( . fOl .bO( .10t . I l l . 71)1 . W t .0/1

,n

. 101

.on

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. 711

r.ro*

. i n

.001

0001

1 7

0? 17

0 3

07 07 07 07 •)7 0 7 07 07 03 1 3

01

0

0 0 0

0

0

1

7 n

10.00 M

. Jbt

. *•(

-•*0( . 7t>E .101

,.!0( . 01 ) .OOf . J<1( -. 1 4( . IK . J61 ,f?l .301 . /nl . 4 * 1

. 7 1 ( •

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. It

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0

1

1 3

7 7 ? : 3 1

3 1 3 1 1 1

J 1 i \ 1 1 1 1 1 9

, ,

1 9 ^ b 1 4

b '

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9 7 0 9

100.001 A

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. 4

i » ,

i i? t 0 7 I 07

1 07 ( 07 f 07 t 07 1 07 1 07

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t 01

t 01

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17( 01

r . ro

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1

1 7

1

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1 3 7 3 1

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1

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9 1 1

.'.'I m i i ii 17t 041 b l l J3I

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111 A l l .'VI

bOt

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7 3

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7 1 I 1 3 1 ) 1 3 1 t 1 | i

1- 1

1 9 J B

4 1

4 1

1 1 1 6

1 *

t 1 b b

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1 1 1 A 0 3

9 0

A l l

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• lit . * ir .3*1 . ?»i . i*i ,0*F .«•( .10f

4]f

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7?t • It 4 ft

i l l 111

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00( . (

07

07

07 07 07

0? 07 0? 0? 0? 07 07 o: 03

• 0 !

03

-03

01

0 4

0 «

0 1

0 4

0 1

Ob

on OH

- • 1 2 -

• JAKKI [)at.•/Code 91 0(«

Table 3.6 (Continued) (4/11) oosc esuivALtm

< 90.000 RCCMI H

1.0 6 . 7 b F l I

15.0 70.0 75.0

AIUHUAI ION F*C IQB I 1*0*

IMCI0IM1 HFUtRON FHEIC«(NfV> 17

80.000) ( 80.000 70.000) I 70.000 A l l .F H ATI.F H

.711 07 .>8E I t l . i > t 0? .29E-U 7.0SE 07

UZOMOAIV GAMMA

6. VIE I I 1. I 9(-07 ?.4«f 11 I . a i f 07 1.771-11 7. OOE 07

- 61.0001 A l l .1

I.lit 07 ;.JtF i i 1. HE 11

7.7SE M 1.11E 11

13EO7 7OFO7 S5FO7

< 60.000

J.90C 1

17

11.000) A I I .F

1.1 IE 07 I . H E 07

l . O t t l l 1.79E 0? 5.67E 17 1.69E 07

10.0 15.0 1.9BE17 40.0 1.47E17 * 1 . 0 I . ! ! £ • 1? 50.0 6.67E-13 IS

E07 IE 0? £ 0 ? E07

l.BJE 17 1.64E 1.J1E 1? I.1BE l.OJF 1? 1.12* • 7.99E13 1.44E 0

1.13E 07 1.47F 02

» . * 6 I 1 J J . 4 J 1 0 J T.Sbt I I 1.36E 07

1.69| 17 1.7SE17

t.bOf 1? I .46E-0! 1. 17F-1? 1.401-0? B.91E-13 I.Jt l-O? 4.91C-13 1.79E0?

1.10E I? 1.10E-1? I.33E 13 fc.*l( 13

I . J3E0? 1.77E 07

60.0 l . W f l ! 65.0 4.40F.1J

0£-

4.Q6EI3 l -? i t 0 ME 0?

1.01E0?

Bi.O l .UE-13 l . / J I - I J f . H F OJ 1 - I t f • l i S.iOE OJ 1.101•II &.09C-0I 1.+ H - I I 7.1 OE-03

t O J

91.0 1.77E 100.0 I.9SE

4 .1 IE - I * 1.7'

I.ME-

J . O J t - 1 * I . I l l

140.0 I.66E- 1« 1)0.0 1.0*1- 14

i.rtE-01 I .7 IE01 f .OIE-04

j . roc- t t r.iot-04

i .4 j [ n J . m o *

r.\<n 04

J.Ot 04

J . 1 J [ - 1 1 i.ttl-04

i . 7 i c - i i j . n t 04 190. 700. 710. 7*0.

c n t.09E 0* u i.oro*

JIO. 300.0 7.901 120.0 3.0H 3*0.0 1.14 lfcO.0 4.4JI iBo.o i .roi 400.0 t.UI

fn i . i i r . 0 4 :tn i.*?F-oi CU 7 . 6 4 E 0 1

• c - i r i.in oi

] , ; i ( U 1.19E 04 1.7IU H 1.39t HI

J.OtE I . U t

I . O U ' O l 4.94t 01

T . t l E - U 1.03E04 i.oar i» t . t J t ot

I .B i t 17 1.0*1 01 l . i f E W 4. t f l t Ob I . I l l \T fl.OBf 0*

?.**t lfc t.t>1t-01 « . I « E i / 4 . i j ( oi l.Ttt \t i . tJ l f -Ol 1.4SE -It l . i r t - O I

7 .0 IE- I I UtOCOt

i . i r i I * i ,:n or 4.HE 70 V 4 4 E - 0 I

4*0.0 9.7*E 71 4&0.0 J. fJE-71 480.0 l . ? H ! l

1.31E 01

?.14f-0 (

8.b8E-2l 1.73C OA

1.11E ?1 1.9JF 09

7.B7F-71

1 .0*1-71

T.711 - 71 1.Oil -Oft

9 .601 ?? 1.61E OH E - 7? 1.14t 01

Table 3.6 (Continued) (5/11)

RICK) H 1.0 1.70E-11

10.0 * . I0£-11 11.0 1.01E 11

E-12 1.27EO7 7.44E-1? 1.7OEO7

l.OBE-1? 1.04E-07

? . 7 K - 17 1.41E 17 9.6BE-13 J1.0 1.3IE 13 1.30E07 1.78E1? 1.711 -0V 1.19f 1 ! 1.1Jl 0?

60.0 3.B7E -13 1 .OH 07 l . D f T • 1 1 9.SSI OJ

70.0 ? . * « • 11 9.77T 01 71.0 7.DIE - U B.bOt 01

81.0 I.Jlt-U 7.71E 01

1JO.0 1.78E-14 7.79F-01 1*0.0 1. \H \* 1.6/EOJ 150.0 6 . 9 S I • U 1.70E OJ 160.0 4 . J l ( -11 8.49F-04 UO.O 7. 70€ • 15 1 .91F0* IBO.O 1.67C 11 4.13EO*

770.0 I . tJfK ll.m 01 740.0 9.181 - 17 4 ,03t 01 ?60.0 J .48E-U 1.791 01 7B0.0 1.37E 17 r.8B< 06 JOO.O 5.01E 16 3.4310k 170.0 1.911 16 l . t iLOi 1*0.0 7.1JF-19 6.th( 07

3B0.0 I .Oflt 19 I . 16f 07 *00.0 «. I*E•70 1.01L08 4.70.0 1.19E -70 7.1*1 08

460.0 7.3U-71 J..'9t 01 • 60.0 8.Ml 77 1 .*3( 04

J . l i t 13 9./8F OJ !.84t-13 9.JU 01 ?. JOE 13 B . b b t 03 1.B6E l i B . 0 4 f OJ

1 . ? 1 E - 1 3 t . 7 4 E 0 1

7.1JE 0 1 1.11E03

1.14F -11 J.S3E 0*

«1F 17 J.7JF 01

l . ? l t 17 7.T7 4.1At 16 1.1 ,'t 06

?. l i t 71 i. ' i f l f 01 7.*4 l ?? 1 ..12

7.1JE 13 8.10E OJ 1,7!r 13 7.WE OJ

1.411 03 I.41E 03

3.OOf 1) a . i t t O J

i.9(,t u r.ior OJ l.iat -ii

1.03E ' 11 1.6*E 03 1.771 03

1.J1E 14 1.83E OJ fl.64fll 1.3J( 01

H t l l 3 .HE 04 1.S9F 11 I .7 fc tO4

r.73t 17 1.411 01

I. I l l 17 fc.m «.71E 18 7 .<m-

1.011 07 4.111 06 i.ait 06

7.071•If 3.161-01

ft. I t f -Ob 7.HF 0» l . U t Ot

1.01E 3.87E

6.1VI ?0 4.? l t OB J . l l l 70 1.41F OR I.71C 70 USE OB

1..-91 71 7.^61 04 6.701 77 1.171 09

?.roi-13 7.6BI-01 7.1BF U 7.?BEO3 1 .761 13 I.IU -OJ l.*3F 13 l . ] » ( O I 1.111-13 l .B*{ 03 9.371-14 1.3JE01 7.11E14 4.B0E 03 * .0* t -14 4.JOE 03 l.891-14 J.HC-OJ 1.171 1* 7.96E 03

1.111 t l 7.9\E 0* /.10t-16 7..0U-0* «.J9E t» 1.39F04 t.66t-1« *,34E 01 6.rtf 17 7.**tf 01 7.J7! 17 1 ,?6I-01 l .9?f IB 1.1M 06 J . l l l - IB ?.*?! Ob 1.101 -16 1.0MD6

1.401 19 1.9*1 07 7.3lt ?0 B.3JI 06 7.811 70 3.1t( 08 1.0*1 -?0 1.1U 06

1 .601 71 7.6?t 04 l .Ut ?! I.OH 09

- • 1 3 -

D . i l r . (•<,<!«• <M 00.1

Table 3.6 (Continued) (6/11 ItNUATION > *C1OB / IRON

tflCIOINI NIUIROR f H I R C V I M I V >

I JO.000 77.100) R(CH) II Arf .1

1.0 4 . J i t I I B.19I OJ 10.0 1.171 11 1.?1( 07

11.0 6. ftl 1? 1 . / I I 07 I . W F o?

1.111 0?

l .** l 11 l.lfcL 07

b.,Vf 17 1.1*1-01 ! . * ! [ 11 1. l i< 0? b. l i t 1? 1 . 171 0?

JO ,'0.000 1 '.1001

» A l l . I

1.6*1: 10 l.lbt 0? !.?0f 11 7.bit 07

i.a«i o?

71.0 7.07E 1? I Oil 07 JO.O 1. i l l - 17 t. I'll OJ

6 . * H 1 J S.Wt-OJ 1.91E U M / f OJ l .JBl IJ b. 911

41.0 l.OOt IJ b.i-bE OJ

J . 0 / I U 6.2IE-0J 7.461 11 b. i l t -OJ 7.01E IJ S.9*t OJ 1.641 IJ i.b7( OJ

1.JJI IJ l . J l t OJ I.OSf U 4.9BE OJ

15.0 J.Olf U 7.HE OJ 60.0 ?.4S[-1J 7.0*E OJ 61.0 t.9A(-\S t . i 6 l OJ

f o . o i.mt u 6.J?E OJ

f i.o i.jot- u i.ajt-oj eo.o i.oiE-u i.Jbi oj

.BJElJ k.Sfat OJ

.?B( U t . l B t OJ

.a*t

.41* •

. 2 1 t -

B1.0

* . ? l t OJ

1.411 OJ

7.&0E IJ b.Jt l OJ 7.10E- I J 6. l i t OJ i./ot u i.eof OJ 1 . J B l - U 1.4b( OJ t . I l l - 1J i.O?f OJ

7 . J 9 f • U l .BBt OJ I - f J l - 1 J 1.611 OJ

l . ibT•U i . j r i OJ 1.771 -IJ 1.01F OJ l .OJl IJ 4.69t OJ

90.0 b.BJl «1.0 1.49|

100.0 4.411 4.11f • 14 J.JM OJ J . b B t 14 J . 0 7 I OJ

170.0 1.40E 14 ?.06f OS

1JO.0 1. U ( 14 1 .171 OJ

0 /.Oil-11 I.tot OJ

1.01E 14 1,«?( OJ *.!?l I I 1.7H OJ

1*0.0

170. IBO.O 1.04f

190.0 b .4 i f 700.0 J.961 - 16 1.7bt 0 77.0.0 l . lO t It. l . f b l 0

0.0 l . b l t 1T 7.191 0

04 V.1U lb 1..-1E 04 j . b i l I t i . | / ( 04

l . ' O I J . I l l

b.Uf II 1.111 lit ?.j*[ in i . :u Ob

«, ibi u ?. n( os 1 . ! 71 1 / » ,V l l Oh ft .171 U 4 . f t Oft

J?0.0 I.Ut IB 0 . 0

JBO.O b.idt 70 r.irt on 400.0 7 .1J t •70 J .7Jt 01 »?o.o «. r n ?i i . \?i on 140.0 l.tbl i\ "J.HOI Qt • 6 0 . 0 l . 4 4 ( 71 ?.47t 09 *&o.o ••.vaf ?? " . i JI JO

b . o n ?o ; .oo i

H . 9 11 - 7 1 I . / .' I

i . j ? t : i : . r < i

i . i ? r ?o b . • J I

1 . JOf 14 1 . Iflt

•.. o;• t 70 "i .«>*•

i . mi m I . U I <>/ \ . joi ,") t i . ;'B| on

Table 3.6 (Continued) (7/11)

70.0

u

j l

• i r . ^ o o • R < t M > H A

S . O l . m - 1 0 I . b

IO.O J.JU u : . is.o i .oot- i t i .a

J-.'Jf I?

12 ( 14.900 1 1.1001

ii A i r . r

7.11f 10 4.*«t 07

1 . m 11 ?-101 07

I .M f 1? 9.011 OJ

J*

Al t . I

l.OJt 0?

1 .bflt 1? B.ftH OJ

< U.700

?.10t • II

1 . 10F 11 ?. l i t 0?

1(1.000)

AI I .(

. 3 / * 0?

( lO-O^O fl.l*»OI H A l l . I

7.3JI 10 * . J l t 0 !

I .Wt l? 1.34t 07

1. l i t - 17 B.07C OJ l . J l f i ? T.\*

.••j.O 1.0 SO.O fl.t

ai.o *.•»

.11- I ] 6.7.K OJ IJ b.Obf OJ

171 U l.&Ot -OJ lac- 1J l . b l t OJ

U 1J

If - u

«.?7£1J 1.6*[ Of J . 7 7 . F 1 J 1 . 4 4 f OJ

?.ost u s . i r t OJ 1 . b b t • 1 J *.<J4t OJ I . J i t U 4 . . ' . I OJ

J .RH 01 J . « " t OJ

1 . I l l • U l . O l t O J

4.10t OJ 4.JJf OJ 4 . l i t OJ

1.IBt 1J 4 .Olt OJ 1.7(1 IJ J.IOt OJ 1.04t IJ J . f? tOJ

1.171 1* • . 4 H 1 *

J.OOt OJ 7.?Jt 03

1.19t IJ 4.1U •)! 1.?1f IJ J.9.M OJ I .Olt I I J.BOt OJ

!.b?t 14 J.O?t OJ 4.SJ1 14 J.BOf OJ

100.0 J.4 110.0 7.11 l?0.0 1.3 1JO.0

140.0 l .J I

no.o J.J;

wo.o I .J mo.o 7.a no.o 4.a

t 14 7.181-OJ

f - 1 1 B . 7 0 E - 0 *

7.101 04 ) . « 4 t - 0 4

<U \I t.t?t 06

in is i.rot Ob

470.0 t, 76( 71

l i t .'0 7.101

b.Bll tb 1.B4f 04 4.19t \h 1.?bF 04

7.901 -19 7.B01 0/ 1.11! 19 I.JOt 07

J . 1 7 I • ) ? I . U f

i . i a i - u ».?ot

IB l-?Bt 06

H i t IV 7.401 i)t ».4H ;-0 I.OJf-07

i.40i ro i.nsf oa

i.JJIt .--I 7.9/1 1}S

?.?0{ OJ ?.«JI 14 ?.?6t OJ

I,17t-0J l . l l t 1* 1.16E OJ

I.1*1 OJ ^.S?f 11 1.171 0!

6.07E 04 J .MI 11 b.?4t 04

] . U ( -0*

J.ZSt-1« 1.OOE 04

1.09E \l 6.7JE0b

1.16F IB l . l l t 01

i . * j r

B.fl4t 16 7.1Bt 04 i.4if - it i.n* -o* J . l l l It 1.011 04

Ofaf

7.9*1 }/

1. i l l U

I.ltt II 1.7!l 06 fc.Obl M l .JOt Of

ft.m-70 I.lfll OB R.8H1 70 1.8JI Oft i . ] * f - ? o «.iot nn j.«i( 70 4 .7 i t oft 1.7VF 70 L. 'M-OB 1.171 70 1 . ROt OB 4.9bF 71 7 . 4 J I O1* %.i)ht 71 . ' .611 " 9 1 .111 -71 J.1J[ 09 I.91T 71 J.7J( 09

460.0 1 . M l 77 ' . Q ' l 10

.JAKKI - Datr/Ccdi' 94--003

Table 3.6 (Continued) (8/11) 00SF E O l H V A l E N l AKO * t l [ H U * t | O N fACTOS SECONDARY GAMMA

17

00 - 1 . A l l

493) 1 •>,

. f H 4.4901

AII.F I . 77E- 10 J.6 ft 07 1. J9E-10 M f E O ? [ . » « - 10 2.19E-0?

J . AIT

l.*JE

0001 .F

07

1 I.000 H

* . 9 / E t l

1.0101 A I I . F

1.14101 7 . J 9 F - 1 I I . 9 9 E - 0 ! J . B S F l l 1.1IE 07 1.JBE-11 l . l B t - 0 ? 1.01E-11 9.2SlOi

1 4 . 1 9 E 0 J 1 .66E-11 4 . 1 8 E 0 1 1 . 6 7 E U 4.17E-OJ l.fcBE-11 4 . 3 7 E O J 1 . 6 9 E U 4 . 6 8 E 0 J J 4 .06E-0J 1.11E- 13 4.04E 01 I.JkE 1J 4.OOE-01 1.J7I 1J 4 . 2 4 ( 0 ) l . J I C I I 4 . 1 4 E 0 J

HE-14 2.tOt -01

1 . 1 * 1 1 * 1 . J 7 E 0 J 1 . 1 9 E - 1 * 1.61E-Oi 1 .611- 14 1.791 01 1.07E 14 1 .J4 I 01

1 1 . 1 U 04 I .47E 11 J . 1 4 E 0 4

10 .0 >.11E 1b 1 , 1 4 ( 0 4 90 .0 1 .4 IE - Ib 1.0SI 04

1 . 1 9 E l b I . l i f 04

I.JOE- IS J . H E - O i

t . ^ l E - I I t .SlE-O*

I . I O E - U J . JOE 04 1.111 1 i J . 1 I E 0 4

9 .41E-16 I . l f E 04 i . « o f • t4 i . m o *

7*0 r . i « E - \ t i . t n oi

I. I4f- if t.*Ot Ob 760.0 I . l i t - t / A . 1 1 780.0 * . 7 7E- I I 7.B4E Ob 4 . JOE• IB 7.811-Ofc

100.0 t . 6?T -18 1.71E Ob I . 6 3 E - I 6 1 .77E0&

a . i 6 i \? j . ? ? t oi

) . ! • £ • ! / * . * O t 0 6

1.6TE- I I 1.2?E- Ob

I . I 4 E W l . J t L O l B.791-17 I . b t E O l 1.07E 17 I.17E 01 1 . 1 K - 1 7 I . i l l 01 l . l fe l 17 6.771 06 1 . I l l I f 7 .J IE-O6

1.641 I t l , 4 0 t 0* 6 . 4 i c - M t . o * t or

JflO

i . i ?t -or 4.ROE-08 I . O l t 08

o . o r . b o t i z i . j / t o ?

O.0 ?.6JE 77 "- . I f l t 10

r . 6 4 £ - ; ? 1 . J i t OS

7 .61E ?7 l . O B f 10 7.fit ?? > . a o f - i o

Table 3.6 (Continued) (9/11) IRON I SECOHOARV CANKJ

(CH)

11.0 70.0

10.0

60.0

ao.o

"0.0 9S.0 00.0 10.0

10.0

so.o

s

1

7 1

6

7

. 9

. 1

. 4

E-1? E 1 7

E l l

.69E U

.3Bb- 1J

. 9 6 E 1 4

. 1 9 t - 1 4 .S8E 14 . b l E 14

- H E - 11

6

S

1

1

1

A I T

.49E

.tn

.OOE

.87F

. 9 1 *

. 0 8 1

.F

OJ

OJ

OJ OJ

01

0]

04

H

?.*&(

5.1BF

1.19E

I.6JE

6 . I8E

7 . H E

U

1J U

14

11

n

A T I . F

;.i»i 01

t.bbi OJ

l . U E 01

1.9H 01

1.09E01

H

?.OBf

1.101

i . rot

1.61E

6.1bE-

ATT.f

17 4.b2l 01

1! 4 . 1 4 ( 0 1

11 1.09E 01

14 1 .97F-01

11 l . O b E O l

H

l.biE

4 .HE

1 .661

1./1E

6.89C

• 1 }

11

U

14

n

A T I . F

J . b ? f OS

1.971 01

4.89[ OJ

7.01101

!.!•( 03

H

i.fclt-17

l . D O E 11

1 . 7 4 1 11

l.ilt 14

l .BBE 11

1

AT

l . id t 1.71E

4.J1E

1.091

1 . 7 B E

f.eoc

,F

•03 01

-03 01 03

• 0 3

03 03

-03 01

0 4

i 9F - lb 1 .JOE0+ 3.44E \b I . J I t 0*

740.0 J.75I 7kO.O 1.731 I&O.O 4.h

1.BJE 01 8. 101 06

>E IB 1 . 1 1 E 0 6 '6E I I l . l l t 06 JOO.O

140.0 l.'jtf • 19 7 .91E ' 1 6 0 . 0 9 .B7E-7O 1 . 7 * 1 • J 8 0 . 0 1 . / 8 E 70 1 .111 •

4 7 0 . 0 l . b O t -71 9 .61E •'

l . i f t t XT 1 . t lC 01 I .JOE'17 B . 1 7 E 0 6 4.&I.F IB 1.17E-06

l . 7 J t IB i . lbE 06

1.1ft ?0 4 .771-08

0 .0Ut*0O 0 .00( '( .0

*40 .0 7.Ab(* ?7 6 . 4 J l 10 0.001»Q0 0 . 0 0 1 ' 0 0

1.19F U 1.7Bf 04

4.JJE 17 J.9BE 01 1.1*1 U 1.79t 01 I . I U H 7.91E 06 4.111 18 1.491-06

\.nt 1« 1.11E 06

Q.QOfQO O.OOt *00

0.OOf'00 0.OO(*O0

I.96E - I t 1.40f 04

9.19E 17 4.11E OJ

1.47E U 1.91E 01 1 . J 1 E U S.b7f 06 4.4SE 18 3.B7E 06

1.90E IB 1.67! 06

0.OOE'00 O.OOE'OO 0.001'00 O.OOt'00

0.001*00 0.001*0U

3. l i t tli 1 . lOt 00 1.S5E 1b 7.441 Q-i. 7 . 7 U 17 ],17r-01

7.71E I? l.ilt 01

1.07E 17 tj.btjt 06 i.att-u ? . * m Ob t . 4 7 t 18 1.?BE Ob l . l f c f - 1 9 1 .17E 07 7 . 1 7 1 - 1 9 7.37E 07 8 . 0 3 E 70 L O U 07 7. . -b l -70 S.HM PB O.ODf'OO O.OOfOO o.ooi'Oo o.oot «o;

0.001*00 0.001*00

- 4 5 -

• IAKKI l);itf/('(i(lf 91 OlH

Table 3.6 (Continued) (10/11 DOSE IQU1VMFN

fl(CM) 1.0

10.0 1S.D ?0.0

71.0

I 1 , 110 - 0.90/) it A n . f

l .?*F-11 7.99€ 01 J .? i f -1? j.m oj 1.1SI 17 J.46f OJ

4.B1E- IJ J.B7E OJ f.QU IJ 4 , ? / l OJ

IMCIDIN1 MLU1RUH (HtHGV(HfV)

0.10/

4 . 9 / E 1 7 A U . I

I . J i t OJ 1 . /9 f 17 1.881 'OJ 1 .OM • 17 7.101 OJ / . ? ? £ - I J J . 0 4 f OJ S . * 4 l - I J J.VBI OJ

0 . 7 4 J

At |

J.Olt 17 4.74t 04

1.JJF 17 l.bJF OJ ft. / a t 1J 7.401 0! 6.J8E IJ 1. HE 01

I./9I 8.171

A l l J l . l O f OJ ?.0/E OJ 1.27E OJ 4 . 7 9 F - 0 1

*ir.(

t . J J t 0 1 ?.8flf OJ 4.9?» OJ

h.lit 01

orr i j i . o i t o?

l . » U - I j 4.97E OJ 1.111 IJ 4.671 OJ

1 . J 4 C 1 J 1.I0E OJ I . I l l - I J * . 9 J ( -OJ

1.J6E IJ 5 .9 i f OJ 1.111 IJ S./91 OJ

» o i u a.oat OJ 1*1 1J ' . /IE OJ

1.7/1 0? 1.7U 0? 1.1 JE -a?

B . t l l 01 ' . O I 0 3 fc.Ut -OJ

100.0 110.0 170.0

7.I4E OJ l . t 4 E 0 J

7.791 OJ 7. Iflt 01

7./7E 14 I,111 01 i . m 14 ?.iflt OJ 1.171 14 1 ,9ot OJ

4sr i s i . 0 6 1 o i

na.o i t o . o t /o .o mo.o 190.5 700.0 770.0 ?40.0 760.0 780.0

1.7SE • 11 J . 0 9 f - 0 4

'.b'l-it 7. 141-0* 4 . m 1b 1.4(11-04 J.BflT I t I.OIt 0*

j . ni n ? . ? B » • n

j . 9 < r o i J . O H OJ 7.741 OJ l . b l l 01 I .161 01 B.70 [ 04

i . u v r i i J . ? I I 04 o . i « l 16 7.7JE 04 4.0J1 \b 1 , i i t 04

i . o a • u t . t t t 04

b.bJE-16 7 . t f l 04 4.09f 16 I ,801 fit

B.S71 1b

J. it( in

2.10E •

1.4JE

J.11E 01 1.J9E 01 6.16C Oh

J . S b l - 1? 7.161 01 I . JM • 1J1 9.1Bb Ofc

9,-iOt 11 1 .f>Of OS J.*j9t \T 7.V7I OS I . l i t I f I .1?! OS

/ .Ifl I f 1 . 6 4 1 O S

7. M l • I f 7.171 OS I.OJt U 1 . l i t OS

7 . 1 1 1 ' I . J O f

r.tn 4 , n i 7 .B41

i.ni

4.9Jf 01 J . b U OJ ? . H t OJ i . i s r - a j ! . ? • ( OJ I . I7E 01 t . O l t • ' *

* . 1 - 0 * J.HI U ?.?!( It

7.«0(-0*

s . lot 1.901 M 7 C -

7 . 1 1 1 OS I . 1 0 1 OS

J 2 0 . 0 J 4 0 . 0 560.0 380.0 400.0 470.0 440.0 460.0

1 . HE 19 S. 1?t 0/ 1. *> «"t 19 7.7OE-O/ ' .1*E 70 9. U t OB 7..16E ?0 J . l f l t OB O.OOfOO 0,001*00 O.OOt'00 O.OOf*00

/ . 4 1 l • IS /.99F 0/ 7.871 19 J.4JF 0/ 1 .0/1 •19 1 ,<6f Of J . 6 / 1 7 0 S.SBt Ofl O.OOf '00 O.OOF *un o.oof <oo o.oor ><>o

7.Kit • 1 9 4.001 Oi' 1 .Off 19 1 .fO| n/ I . .*0( ?0 b . M[ OH IJ. JOf '00 0.001 -00 O.OOf «00 O.OOi -00

7. I Jl 19 J.911 0/ n.Odl ?o i .btf o:

7. ' . "( ?0 b.4 I t Ofl O.OOt *0U 0.001 <00 O.OOf *00 O.OOf<00

0.OOF*00 O.OOF >Q0 0.001 '00 0.001 '00 O.OOl*00 O.OOt'OO 0 . 0 0 1 ' 0 0 0.001»00

•00 0 001>00 "JO 0 . 0 0 1 ' 0 0

a . o n ) * o o o . o o i ' 00

0.001*00 0.001*00

1.4/E 19 S.16( 10 1.91t 70 O.OOE'QO O.OOE «U0

O.OOE'UO 0.001*00

I . I l l - 0 ' 1.661.07 b.3«( OH O.OOf'00 f.OOF*00 0.001*00

o . o o t <oo O.OOf'OO

Table 3.6 (Continued) (11/11) OOSE tOUlVALLNT AHO 4 M f X 0 » t I 0 N FACTOR lECUhDAHV GAKMA

H A I I . F

Bl 17 1 . 9 4 E 0 7 9 [ - 1? S.06E-07

I , i4t-11 1 ,lf lf -01

1.1 Or 11 J.iflf 01

1.3JE-0? 1.161-1? 7.JOE 07 t . 3*1 • 12 J71 Q? I . H E 1 ! I . U F 01 J .9 /E 17 1.191 01

I f l f - 0 7 1 . 1JE I? 1 -?9F 01 7.71F- 17 ».S«F-01

41.0 J.04F-13 7.0jr-0! J . l f lE lJ J.70f 6 .0*1 o? 4 .JJF -1J 1.Z6E-01 S.bfE 07 J . U f I J 1 .11E01

11.0 1.8/E-1J I .Bbt 0 ! 1 .BJF -U 7.Tif 07 •>0.0 1 . * l f - l J l . r ? l 07 1.JBE-11 ? . 4 / t - 0 7

9 .11EO7 T.91E-0?

j.rot M i.trt oi K I M IJ 1.0JE 01

J.J1E 0?

J.3JT-1* 6.92E-0J 100.0 I.SOf 14 1.921-OJ 110.0 l .O tCI * 4.77E0J 1?0.0 b . ? l ( - n 7.9IE "OJ

7.4Ot

S.?OC

OJ OJ

1 1 /

, / J t -J7E . 6 K

- It -1* -n

i i

s . i . i

61 11

07 0 ! 03

1 1

6

.18E

.71E

.9?E

• 1 * 7 .

-11 1.

HE 0? ur o? 1

7 .71E

.B/r • 1 )

10

37 JJ

190.0 700.0 I . 0 4 E 1 6 1.J6E

?(1.0 1.J7E-IB 7B0.0 7.01E- IB JOO.O / . t H - H

i . iac-ob 7.JKO6

1.191 -1« 6.701 06 i.o?f t« ?.ror ot

l . l O f IB

S.JfC- I f

1.7S124 1.S1E 11

9.4*[-oi i.7t(-?R r. jrt *. l l t-01 l.lil•JO 6.901-l.«?l 01 7.MF J7 ?,00t ?.*ot 06 a.oot^oo o.oot"

« 0 0 . 0 O.OOfOO O.OOf tOO 4?0 .0 0.OOE <0C 0.OOf"00 410.D O.OOE.00 O.OOE'OO

0 . 0 .

0 .

oot OOf

oot

• 00 *00 • 00

0 0

0

.001

.oo t

.OOF

•00 •00 • 00

0 0 0

.001

.001

.OOE

•00 •00 • 00

0 0

0

.001

.001

.001

•00 • 00 •00

0 0 0

.oo f

.001

.001

• 00 •00 • 00

0 0 0

.OOE

.OOF

.001

•00 • on

•00

0 . 0 . 0 .

001 oo t

oot

• 00 ' 0 0 • 00

0.001 0.001

0.001

OOt '00 O.OOf<00

- 4 6 -

1 . A . —)

|

Table 3

!ln / I I?

O r n a p En..

K ( 1) -

E( 2 ) '

i:( 3 ) >

E ( 4 ) =

* ( S) =

y. t e ) =

E ( " ) •

1: i 8) = M ) b E u 0) -F ( 1 1 ) •

r . ( I Z > '

h i : 3 ) =

E ( 1 1 ) =

L ' ' 1 - ) -

l-'t 1~) -

F ( 1 3 ) -

E C U -

r 2 0 ) =

E i . : 2 )

t'.'!) =

i" 1 £ D ) '

E 1 2 7 ) '

F l 7 " ) •

E C i i » El 30) = 1. (31) = F (3 2) -K {3 3 J • i:(31) -f ' 3 S ) =

E ( 3 £ ) =

E ( 3 7 ) =

E ' 33)

Kf 33) '

El SOI -

E ( 4 ; ) -

fi(42)=

E ' 1 31 -

E l l ! ) '

E ( 1 5 ) -

E ( 1 5 ) -

E ( 4 7 ) =

E ( 4 1 i -

F ( 4 9 ) =

KlSO)

!•' ( S 1 ) -

K ( 5 2 ) -

Ft':]) -E i S1) -

E ' i S )

1 3 3. 3 3

2 ?

1.

1 1

1

0

7 6

5

1 4 1 3

2 i

i

1 1 I 1 i *

}

1 3

2 2 1 1 1 9 7 4

2

I

J

i l a

.7

frt;t:

Botni!. •SylMcU 3 3 E *

SOK*

2SE*

0 3 E -

7 5 , - '

" S E .

C : K -

J3N + 50E*

32 02 32 G2 32

02 02 C2 J2 32

I0E+C2 23F. I0E. 03E aoK

CGE 53F

: ,O: '

CJE '3E

SOK :'A'

7SE SOE 25-0 3E

75E I9i: 35E 22E ODE

02 02 02 01

c; 01 01

c : 01 31 Cl 01 ,1

o: c: 01

•01 •Cl

01 • 01

• 0 ! 13E.C) 70S 19E I3K tVf. Oil 18t O::1

Sir. 3Sr i l f 07 :

• 0 ) •00 •CO • C 1

•c: •10 • Vi •Cl •1)3 •'!". -01

13E-0I 9ot -01 34E-3I Z4E-CI 50F 5 -. r

l i r *0!

- J 1

-02 - }2 - *2

Fitting in water

1. -I. -1

• I .

- 1 . - 1 .

- 1. -1 - 1 . -1 "1. -1.

1

-1. -I. -! - 1

•1

-1 - ;

-1 - I - :

- i - l - !

-1 -1 -1 -I -1 -I -1 _ ; -1 - | -; - 1 -1 -1

-I 1

- I -1 -1 -1 -I - ;

» . , Z49E* 2SIE*

25SEi 257E. 2631*

0!

01 01 01

263E.0I 267F' 253E-269E-27OE* Z70E-27CE*

27 IE. 2711 27!E 270E Z37E 26 3E 253E 25IE 248E 24 4 F Z36E 223E 219E 2C3F I37E 2I4E 20JE 2C7E :07E 295E 19 9-; 151E 135-O35F. 2S7F ;«3E : ! • !

01 01 01 Cl 01 01 01 01 C! 81 il 01 C! 01 01 01 01 01 31 Cl 01 01 31 01 01 01

• 01

'01 31 0!

• 01 '01 01 •)l

23SK.0I '7 7E j 7 5 i ;

338E 3 IS*. 334? 3SSr 3B8F II2F I22F

• 01 •11 •01 «!l •01 •31 •31 •01 •01

427E.01 : 2 i £ 1! 6r U2F

•01 •01 •01

_2 -2. - 3 . -3 -3 -4 . -4 . -4. -5 -5. -6. -7. -3. -3. -1. _ ; - j

-1 -1 •1

Darameter to

a 793K-C3 936E-03 I1SE-03 380E-03 713E-O3 091E-C3 392E-O3 7I5E-03 M'JE-03 7ME-03 433E-O3 504E-03 433E-03 2S9E-O3 OO8E-02 103E-02 223E-OZ 339E-02 622E-02 5I3E-02

I.576E-O2 -1 -2 -2 - ; •3 -3 -I -5 -5 .5 -5 -5 -7

• 3

•i

-1 1

974E-C2 195E 02 51OE-O2 96IE-C2 412E-02 S63F. 02 IZ3E 32 I6IE-02 7S3F. 02 I93E-02 593E-O2 336E-O2 492E-0I 323E-02 3O8E-0Z I59F.-01 SIOF.-Oi

5 . 3 3 I E - 0 2 •1

S

1 -1 - •

- 1 -I • ]

-1 -1 -1 -I - I -1 - I - I

O36K-O2 33SF.-C2 064E-01 273F-0I 43SF. 01 I46E-OI 3O5E-OI 2O9E-O! I94F.-0I ISIE-OI 039K-0I

. 069K-O1

. I14E-0I 335E-01

. 473E-O

.S71E-0

I m

-8 -8. -3. -3 .3

-3 -8 -3 -9.

i n

q

533E-0E 703E-05 742E 05 773E-0S 7 3 3 - -36 70?E-C5 821E-OE 3S5E-05 CSOK-05

- 3 . 0 3 76-06 -9 -9. -9. -9. - I . - I . • I .

-I. -I -I - J

- I

-I

Z40E-05 283E-05 436E-06 5 1 8 E 0 5 013E-05 091E-OS 215E-C5 36IE-0S 103E-OS 625E-C5 73IE-05 ES4E-05 3I0E-05

- I . i ! 3 E 0 S

-2 -2 -2 -2 -2 -4 -4 -S • 5

- 3

-4 -I

I I

-I -I -1 -I -2

2 -4 -5 -S

I94E-05 557E-05 6'SE-OS 70HE-05 7I6F.O5 637E-0S 326E-05 175E-05 369E-0S 103E-05 I31E-05 3I8E-05 452E-O5 032E-04 654E-O3 59SE-O3 720E-03 33IE-C3 2I3E 33 S73E-03 88IS-C3 0SJE-C3 SS1F.-03

- S . I 9 7 E - 0 3 -6 -7 -7 -: -5 -6 -5

9S3F.-03 SISE-03

.485E-O3

.5O4E-03

. H 3 S - 0 3

.3O3E-O3

. 9 ! ( ' : -03

fose equivalent

5. 5 5. 5 5

*.er

110E-0J 464E-0S 553r.-O9 54SE-09 639E-G9

5.769F.-09 5. S. 5 5, 6. 6. S 6. 7 7 8 9 7

i I I I I 1 2 2 2 2 4 4

4 3 2 ;

-1 -9

1

1 1

; S 5 5 g a 3 9 9

-

94IE-C3 I13E-09 221F.-C9 257t-O3 445E-09 S03E-09 534F-C9 675E-39 027E-09 5S3E-G9 627E-09 SO9E-O9 O3EE-C9 15IE-03 303F.-0S 144E-OS 335E-O3 5C2E-35 7I5E-08 OSIE OS O37E-01 044E-35 U7E-O8 123E-03 126E-08 I13E-0S I93E-0H 763E-03 729:-;-.33 335E-08 13IF.-03 104E-03 222E-0S 279E-u: 343E-C5 494E-OS 776E-35 O59E-C5 I31E-0S 280E-05 940E-0S 346E-05 3ZBF-05 I82E-35 I17E-0S 349E-0S S44E-0S 723E-0S 310E-05

-I. -I. -I. -I. -I. -I. -I. -I. -I -I. -1. -1. -1. -1. -1.

365E-12 390E-I2 43IE-12 464E-12 491E-I2 531E-12 S94E-12 6S3E-12 E39E-12 712E-I2 758E-I2 734E-12 813E-I2 82BE-12 9ZSE-12

- 2 . 1 0 5 E - I 2 - 2 . 3 S 7 E - 1 2 -2 -1

61SE 12 340E-12

- 3 . 228F.-12 -3 -3 -3 -4 -5 -5 -5 -S -5

1 -1 -1 -9 -5 -1 S 7 3

-3 -3 -3 -4 -5 -5 -2 -2 -2 -2 -3 -1 - 7

-4 -3 -3 -3

686E-I2 CS7E-12 514F-I2 3C3S-12 C58E-12 O:9E-I2 SI7E-I2 957E-I2 S27E 12 325E-I1 222E-1 ! 02SE-1I 471E-I2 74SE-12 4ZSE-1; ( 3 1 F - I 3 064E-I2 231E-1I 369E-C8 5"8F-3a 351E-03 324E-C3 383E-C3 S 6 t E - 0 i O51F.-O7 I I2E-07

. 4 I 3 E - 0 7

.892E-O7 6O3E-O7 02SE-07

.930K-O7 109E-07 710E-O7 26SE-O7 073E-O7

of neutrons

9 9. 9. 9. 9 9. 9. 9. 3 9. 9. 9 9. 9. 9. 9 9. 9. 9 9 9. 9 9. 9 9 9 9 9 9 9

r e SCE+ S:E-

02 02

5;; :<C2

5 3 t >

SCF.

SCI . .

; O E *

SOE*

5Or>

SOE.

50E»

SOE*

SOE'

SOE.

SOE.

5 OF'

SOE'

SOEt

SOE 5 3E

50E soi: SO!: SOK 50-53:: 5Cf. 50 r SOE

9. 50E 9 9 9 9 9 9 9 6 5 5 6 ( 6 3 3 3 3 3 3 3

531: SCE 50E SOE SOE SOE SOE OOF.

OOF.

02 02 02 02 02 02 32 02 02 C2 02 02 02 02 02 02 C2 02 02 02 02 02 DC 02 92 02 02 02 02 02 02 02 02 02

.02 •01 '51

OOE.OI

C9E

OCE OOF OOf.

OOF OOF OOF 00E OOF

3.001 3 3 3

OOF OOh

. DOE

•01 •01 + 01

'01 . 0 I

.01 •01 •01 •01 '01 •01 •Cl •01 •0

-1. -1. -1. - 1 . - !

-1 - 1 . - i .

- 1 . - 1 . - :

-1. -1. -1. -1. -2 -2 -1

-2.

-1 - 2

-3 -3

1 -S •5

-5 -7

8 I

•i

-9 9

-i -9 -9 -3 -1

-2 -2 -2 -3 -3

-: -4 -4 -4 -4 -4 -. -4 -4

144E-02 15EE-C2 I72E-O2 19:E-02 214E-O2 21OE-02 2E7E-O2 299E-02 343E-02 397!-. - s ; 472E-02 579E-GZ 7OSE-02 796E-02 9O8E-O2 OS1E-02 23SE-0/ 47BE-O2 569E-C2 324E-02 C36E07 3O',E-O2 57ZE-02 93JE-0 I 7 3 E - 0 . : ' .SE-3 765E-0

1S5E-0 2 S 0 E 0 6S7E-C 927E-0 934E-0 I 3 5 E 0 BSEE-C 176E-0 110E-0

Table

II 7 / S"C'.

Grviup En' E( 1) = E( 2 ) ' Ef 3)--••< l i =

E( S) = E( 5) = E( 7) = E! 8 ) . E! 91 = r. (10) -E ( 1 1 ) •

E(12)= E (13) -E ( ! 4 ) = EI1S)= t ( 1 8 ) = K (17 > -E (13) -E(I9 )= E C O ! ' K 2 1 I -r ( 2 2 ) =

K ( 2 4 ) -

i : ( 2 S y =

f.l.Zi):

K ( 2 7 ) =

f-112?.} -

Ei29)--E ' ! 0 ) = F ( 3 I ! = E ( 3 2 ) . E ( 3 3 ) -t i 3 1 ) '

S O S ) = r.<3 = ) = F(37)=

157E-02 F. (351) = 396E-C JS IK r, I04E-0

E f39 ' = F(451= E d ; ) '

28IF.-0I r (12) -7S7E-0 F ( I 3 ) = 065E-01 E i l t ) - -S89E-0I E ( 4 5 ) ' 8I5E-0I f.(IS)' BB2E-01 E(47)= OOBE-OI F.(48) = 101E-01 F . (49) . 1I6E-0I E(5O)= 12SE-01 E(S1)= I29E-0I E(SJ)= IIOE-01 f f 5 3 ) • 10SF.-0I E ( S 4 ) ' I04E-01 E(5S)=

4 3. 3. 3 3. 2 2. 2. 2 1. 1. 1. 1. 1. 1.

.8 Fitting parameter gamma rays

nilary G.1 Bounl

rgy(WeV) OOEt 7SE. 50E> 2SEi

OOKt

7 5 E .

S C E .

2 5 E .

00E IK EOF.

43E 20E IOE 00E

3. 00E 3 7

5 5

03E OOF 5OE OOE

5.501: S.OOE 4 1 3 3 2

2 2 2 1 1 1

1 1 9

5 S 4 3 3 2 2 I 1 1 9 7 4 3 2 1 8 3 1

SCE

02 02 02 02 02 02 02 32 02 02 02 02 C2 02 02 01 0! 01 01 01 01 c 1 Cl

S O E - 5 1

SOE OOF.

?SE 5OE 2SE 03F. 75K 4 9E 3SE 22E OOK 19E 7CK 49E 19E 6SE OIF 46F 02E 6SE 3SE I IE

01 0 1

*C! 01

•01 .01 Ci

•Cl • 01

• Of

• CO

.CO • 0 0

. 0 3 . 0 : •CO • CO

'00 '03 • 00

O7E-01 43E-C1 98E-01 34P.-O1 24E-OI SOE-01 8SE-O2 I8E-02

.SOE-02

=1.1

-1 -I. -I. -1 - 1 . - 1 . -1 -:. -1. -; -1 - i .

- I - 1 -1 - 1

-1 -1

1 -r -; -1

-1

-1 - I

I - I - I -1 - 1 -1 -I -I -1 -I

r

-1 -1 -1 -: -I - i -1 -I -1 -I -i -I -1 -1 -1

Bay

l i j

3 ! 3 E ' B13E. 3 OK • 843E. 841E. 839E. 833E' 837K' 334E' 33 IE*

CI 31 Jl 0! 01 0! 01 01 CI CI

B26F-01 319E 3 ! 2:. 3C8E' 804E SICE 795E 790E 777E 7S2E 7731: 772-764E 743E 7 ; i F 716F 70»E 7CCr E89E 630E S93E 569E S45E t57E SS3E 662E 561? 68BF. ?63E £41F. 931E 3I7F. 800E 739E J29F. JI5E SHE 799E 7!!E 774E "SEE 7S9E 752E 746E 743E

Cl C I

c: 01 31

0:

c: 01 31 CT c : c: ; i 31 3!

z\

31 01 01

01 0 :

•01 • 31

c: •01 • • j 1

•31 •31 >C! •Cl •01 •01 •31 • 01 • 01 •01 •01 • 01 •01 •01 •Cl •01

Dos

1. 9 9. c i. 3 8. 7 7

E. 5 4 3. 2 2 ; 7

-1 - 7 .

-1 - i

-2 -4 -5 -I -1 - I -, -2 -2 -2 -2 - 2 -2

-2 -3 -3 • 2

I 9 i 7 E 5 I I 1 9 7 7 S 5 4 3 3

to dose in water

- F.qaiv

CO4E-O2 871E-03 SSJE-03 370E-03 941E-03 4S3E-03 095E-03 591E-03 I54E-33 S9SE-O3 333E-03 807E-03 829F.-03 063E-03 373E-C3 53EE-33 5S4E-04 855E-C4 338E-04 "17E-:3 353E-:j 397E-03 533E-33 390F.-C3 320E-:2 7C1E-32 930E-32 !57E-S2 405E-02 649E-02 ES1E-32 S74E-32 474E-02 S34E-C2 8I3E-02 IIZE-02 23OE-02 S74E-C2 099E-0I 7COE-02 58SE-O2 B34E-02 S36E-02 715E-C2 333E-01 I77E-0I I34E-0I 95IE-02 344E-02 338E-C2 1C8E-02 285E-02 423E-02 694E-C2 2SOE-02

al.

-4 -4 -4 -4. -4 . - 4 . -4 -4 - 4 . -4 -4 -4 - 1 . -4 . -4 -4 . -4 -4 -5 -S

-5 -6

-5 -4

nt in

a3J

313E-CS 3O6E-0S 320E-C5 312E-O5 292E-0S 272E-05 275E-O5 27BE-05 260F.-O5 27BE-0S 3C2E-OS 321E-O5 315K-CS J61E-05 442E-O5 570E-O5 •54E-C5 927E-O5 176E-O5 22SE-05 542E-O5 O50E-C5 2 S I F 05

67IE 05 5S4E 05

-3.525E-CS -2 -2 - i -5

4 -2

I

1 i

-2 -5 -3 -2 - : -; -2 -2 -S -5 -4 -4 -3 -3 -3 -2 -2 -2 -;

3S7E-CS I54F-35 427E-05 S9SE-06 752E-C6 525F.-35 343E-I5 121E-37 412F-O6 222E-C6 266E-O5 I87E-0S I37E-03 874E-03 722E-C3 4S5E-03 2O3E-O3 OOOE-33 54SF.-03 O29E-C3 SJ3F.-03 41SE-03 7Z3E-O3 iOSE-33 07SE-C3 782E-03 I72E-O3 209E-03 048E-03

equivalent of

Katcr

4. 4 4. 4 4 4. 4. 4. 4. t. 4. 4. I I 4 4 4 4 4 4 5

5 E E

O42E-08 032E-OS 060E-03 053E-08 048E-08 043E-O8 05SE-03 06SE-08 044F.-08 072E-OS IO1E-O8 132E-05 142E-03 I47E-08 218E-O8 319E-O5 487E-03 J78E-08 BI1E-08 793E-C3 I3SE-03 968E-03 S07E-C8 24CE-OS

5.303C-0S

4 3

2 1 1

319E-03 E38E-08 S43E-08 145E-08 326E-08 I02E-38 SS7E-09 919F-09

3.I43E-O9 4

-2 4 S » 2 2 2 1 1 7 6

e 8 S 4 4 3 3 2

683E-1I C63E-09 0S1E-08 710E-0B 742E-O5 S26E-05 397E-05 I96E-05 951E-05 771E-05 SI3E-0S B3BE-O5 651E-O5 02IF.-OS 033E-05 648E-OS 19SE-0S 789E-0S 358E-OS 991E-0S

2.765E-0S

-1. -1. -1.

a e j

325E-11 323E-1I 333E-11

- 1 . 3 2 9 F . - H -1. -1. -1. -1. -1. - ] .

-I -1 -1 -1 -1 -1 -1 -I -1 -1 -1 -1 -; -2 -1 -1 -I -1 -8 -5 -4 -3 -2 -1 -6 - 2

-1 -8 -7 -7

-6 -t -5 -3 -3 -3 -2 -2 -2 -2 -1 -1 -1 -1

330EM1 331E-11 336E-11 339E-1I 33IE-11 343t ' - lJ 3S1E-1I 3EJE-II 3 5 S E - : ! 3 6 S - - I ! 3 9 0 E - U 418E-II 470E-1 ! 4 90E-11 S63E-I1 522E-II 6SiE'-.'l 9 0 - : E - I

159E-1 140E-I 873E- ! SS3E-1 3 30F. 1 095E-I l S ' E - 1 223E-1 494E-I 36IE-I 464F.-1 383E-12 OO9E-I3 5E6F.-13 6 S 1 E - U 783E-1I 345E-C? 728E-03 3S1F.-03 757F.-C8 O2SE-03 483E-0S S39E-0" 233E-07 14BF.-07 BS8E-07 423E-07 220E-07

. 007E-07 81SE-07

. 6 1 2 E - 0 7 4 3 9 F. - 0" 33OE-07

secondary

9 9. 3. 9 9 9. 9. 9. 9 3. 9 9 9 9

9 9 9 9 9 a S 9 9 9 9 9

r c j

SOE. 50F.. S0i> 50E*

02 02 02 02

50E.02 50F.02 50E»02 50E' SOE. 50E SOE 50E

02 02 02 02 02

50E.32 scf: 50E SOF SOE

02 02 02 02

SOE*02

SOF.

SOE SOE 5CE 5CS SOE SOE SOE

9. 50F 9 9 3 9 9 9 9 9

9 9 9 i 5 6 £ 6

SOE SOE SOF.

SOE SOE SOE 50E 50E 5OE SOE SOE OOE OOF OOh OOF OOE

5.OCE 3. OOE 3 3 3 3 3 3 3 3 3 3

OOF.

OOF 001 001 OOF OOF OOF

02 02 02 02 02 02 0: 02 02 02 02 02 02 02 02

•02 •02 •02 •02 •02 + 01

»C1 •01 •01 '01 '01 .01 .01 '01 .01 . 01 .01 .01 .01

0 0 E > 0 1

OOF , 0 0 r

• 01

•01

-1. -1 -J. -1. - 1 . -1 - ! . - 1 . - 1 . -1. -1. -1. -1. -1. -1

b j 135E-02 152E-02 I64E-32 191E-02 2C7E-02 236E-32 262E-02 29EE-02 342K-S2 395E-02 467E-02 581E-0 699E 0 769E-0 S98E-0

- 2 . 0 4 7 E - 3 -2 -2.

226E-C 4S9E-0

- 2 . 6 2 3 E - 0 -2. -2 -2 -2 -2 -2 -2 -; -2. -2 -2 -2 -2 -2 - : -2 -2 -2 -3 -6 -6 -5 -6 -6 -6 -9 -9 -9 -9 -9 -9 -9

70IE-02 6S7E-32 5S2E-02 5 0 9 E J 2 I7BE-3: 4E0E-C:

( s z r c : 148E 0 : 4 4 S E - C 4S8E-3.' 382E-02 3B2E-C2 352E-C2 3 9 ^ : 0 7 625E-0 : 794E-C2 837F-C2 B87F-32 27 IE-32 36IE-O2 344F-02 335F.02 32IF-32 307E-02 299E-C2 177E-02 IJ3E-02 I83E-02 I75E-02 1S1F.-02 I35E-C2 II6E-02

-9.O9SE-O2 -9 -9 •9

O79E-02 O63E-O2 053E-C

\

Table 3.9 Fitting parameter to dose equivalent of neutrons in ordinary concrete

Table 3.10 Fitting parameter to dose equivalent of secondary gamma rays in ordinary concrete

CO

I

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Table 3.12 Fitting parameter to dose equivalent of secondary gamma rays in iron

i-:( i ) = FA 2)-• E( 3 1 ' E( 4) = k( S i ' E( 5) = r.( 7i = F.< '.)•-

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.973E-04

.40SE-34 108F.-34

.84IE-04 736E-04 S33E-04 S58E-03

li

2

•-.I!

CO6E-36 2 . O 3 S E - 3 6

2 1. 1.

1. j

1. ;. j .

i.

1. i. 1. I I

33IE-35 S3j;-06 3J3E-05 335E-05 933C-0S 989E-O6 J8 5F.-06 973E-06 977E-06 376E-05 37SE-05 9'0K 35 954E-06

95-5E-C5 326E-O5

I. 900K.-05 1. 1 1. 1. I.

1.

1. 1. 1 I 1

1. 1. 1 1. 1. I I. 1. I. I 1 1

1 1 1 1 J 1 I

7 5 3 1 8

B7SE-05 • S I E - S 6 B17E-0E - 8 1 E - 3 6 710E-C5 535E-05 E41F-05 SJ3E-06 523E-36

455E-G5 41SE-C5 375E-O5 35SE-05 321E-06 25'E-OE 243S-06 247E-06 241E-05 213F.-05 22JE-O5 248E-06 2S.iE-.35 251E-36 253E-C6 252E-C5

USE-OS . IS3E-05 .1I7E-06 .4335-05 . S73E-0E

452E-C5 2.C.E-C5

. 37SE-37 647E-O7

. 649E-07

. 5 3 S E - 3 5

. I 9 1 E - 0 6

-2 -2.

-2

3S8E-09 357E-33 361E-O9 353E-09

-2.3S0E-03 -2 .

-2. -2 •2 .

-2. -2. -2 . - 2 .

-2. -2 -2 -2 -2. -2. -2

-2. -2 . -2. - 2 .

-2. - [ .

- 1 . - ]

-1 . - I . • 1 .

- 1 . - I . -1 - 1 .

- I . -1 - 1 . -1

-1

- 1 . -1 - I . - I

- 1 . -2 - 1 . -1 -9. - 5 . -1

-3

3i3E-33

352F.-09 353E-C9 3ME-O9 315E--09 347E-03 3S2E-0 3 35SE-33

358E-03 257E-C9 3I9E-C9

3 2 9 E - 0 9

3O5E-39

233E-39 2 i 4 E - 0 9 : i 7 E - C 3 177E-C9 123S-C9 077E-0 3 01 IE 3 3 9 I 3 E - 0 3 86 3E-C9 78IE-C9 733E-0 9 5 3 4 E - 0 9

550E-33 6I5E-39 S45E-09 51SS-03 519E-09 SI3E-09 473E-99 433E-39 522E-09 531E-33 527E-03 535E-33 53SE-09

783F.-O9 •MOE-09 359E-33 9I2E-09 0S3E-09 8IEE-39 573F-09 23SE-1O S03E-I0

.30ZE-09

. 3 5 S E - 3 3

. 9 I I E - 0 9

3. 3. 3

3. 3. 3 3. 3.

I ' d

OOE*

OOE.

OOE.

OOE*

OOF.*

COE*

OOt*

•33E*

3.OOE*

3. CUE*

3. 3. 3 3 3 3. 3

O0E>

OOF*

COE'

cot:* OOE.

OOE.

02 02 02 •32

o: 02 02 02 02 C2 02 02 02 02 32 02

OOE.02

3 . OOK-

3. 3 3

3 3 3 3

3. 3 3

3. 3 3 3

3 3 3 .1 3 3. 3 3 3. 3. 3

3 3 3 3. 3

3 3 3 3 3 3 ?

OOE.

59E-

30E<

OCE'

OGE'

OOE' OOE' OOF'

OOE' OCE' OCE' OOE.

COE'

OOE'

OCE-

OCE'

OCE'

02 •02 •02 32

•02

'32 •02 02

• ^ 2

'32 '02 >02 >02 •02 •32 • 02

0CE*02 OOEtOZ COE OOE-OOE OOE-ODE-OOF.

CCS COE

>02 • 02

'02 '02 •32 • 02 >C2

00E*02

03E OOF.

. OOE

COE . C J E

•02 •02 •32 '32 • 02

.OOE.02

OOF.

03E . 60E

' . 2 •02 • 02

-4 -4 . -4 . - 4 . - 1 . -..

-4. -4 . - 4 . • 4 .

- , j

-1

- 4 . -4 -4 -4. -4 -4.

-4 . -J -4 - I -1 -4 -4. -4 .

1

•4 . -4 - '

-4

-4 -I

I -4 -4. -4. - I -4 -4 -4 • 4

-4 -i

-4 -4 -4

b j

293E-0! 293E-02 2 9 3 E - O 2

232E-C2

292E 02 291E-02 2S9E-O2

2S7E-02 234E-C2 28OE-O2 275E-O2 259E-O2 <6SE-92 ISIE-OZ 2 5 9 E - 0 2

2S8E-02

M 7 E 02

257E-O2

255E-O2

256E-07 I55E-O:

' 'SSF-C 2S5E-12 2J4F 32

2S4K-02

254E-C2

2S4E-02 254E-02 : 5 4 E - 5 2 2S1E 02

254E-0Z 2I5E-02 2 5-4E C2 254E-02 2S4E-H2 2S4E-32 254E-02 254E-32 2.i4b-02 179E-32 179E-02 I80E-02 111E-02 172F.-32

. I 7 6 E - 0 2

[HE-01 -4 .13IE-02 -4 -4 -4 -4 - 1 -4 -1

. I67E-C2

. 160E-02

. 1S9E-02

. 160E-02

. IS1E-02

.161E-02

. 763E-01

II 7 /So -co:

'•P-G r o u p F n f i

E( I ) '

E( 2 ) '

E( 3) =

F ( 4 ) '

!•:( 5) =

E( 6) = K( D = E( 8) = E! 9) = i: (i c i --K ! l l ) = i.u:i = i:(i3)--E(|.li = K ( 1 M =

E ( I 6 ) -

E ( | 7 ) - -

E { 1 8 ) -

F ( I 9 ) =

E - 2 i ' ) =

r. ( 2 1 1 '

KC:> = ECS1 y.ii) Fi:i)--K C E ) -

E I 2 7 ) -! ' (2 i ) = E 'S3> ' E(33)= E ( 3 H ' K(32)> E ( 3 31 =

E ( 3 4 i =

K ( 3 SI =

E(3E)= E ( 3 7 ) =

E ( 3 S ) =

E(39)= F . ' I O -E! 1 : ) ' F ' I 2 )=

E(I3)= E( . t l ) = E(4S)= F.((S) ' E(J7)= F: < 4 8 > = K ( 4 9 > •

E(50) ' E(51) E<S2)= E(53)' EI54) E(SSl

4. 3 3. 3. 3. 2 2. 2. 2 ; ; 1 i. ! i

9 3

5 6 S 5

2

3 2 2 2 2 1 1 1 1. 1 3 5 5 4 3 3

: 2

• 2

: 1

: 1

' 1 = 9 • 7

' 4 = 3 = 2 = 1 • 8 ' 3 • 1

Hilary C i Bound

rRy (M'-V) 00b'«02 75E.02 SOE'02 2SE.02 00E.02 75E*02 5OE-O2 2 5E*G2 COE-02 50E*02 6Or."32 40F.-02 20E.02 10E-D2 •3CE»02

OCK'OI

OOE*C1

O O S ' u I

SOE.O!

3CE.01

50E .C1

o:;-:*o; 5Ci>c: O O E . C ;

S C E ' C :

OOE'OI 75E.01 13F.C1

25E<:i •30K.01 75E.01 19F.JI 35E-31 £ 2 K * 01 OOE'OI 19F*00 7OE*O3

. 4 9 E - 0 3 4Sc*C3 5 9 E * Z 3 O I E ' C ) 46F..00 S2F.*00 55E*GJ 3SF*00

. UE'OO

.07E-01

.43E-01 98E-0I

.34F.-01

.24E-O1

.50E-01

.6SF.-O2 18E-02 50E-02

e . a Bay/ '.

-I. 677E.0! -1 .634E-31 - l . 6 J S E . 3 i -1 E31E.01 - I 63SE-3I - : .703K*31

- I 704E*OI -1.7OEE'C1 - : ' i i E « 3 i - i . " l S E ' C l - 1 T 2 1 K • 0 1

- ! . 7 2 7 t ' 0 I -1 .73IE«51 - : 731K-OI - : .733F*01 -1 744E-3I -1.7<3F*01 -1 752F-31

- : "55F>0l -1 7£0h"3I -1.7£3E'Ci -1 i7flr.*Cl -1 !75:-'Cl -1.7S3H-C1

I. 75QF.»01

-1 736r.*0; -1 798K*C; - : 83iK*3; - : T33E»C! -1 737E'Ci -1 .702E.C.

- i 53IK'O: - i 657F.-31

- ; 6 T 2 E - H

- 1 . 6 9 i F- • 31

-1.7:3F.-01 -i 733E-01

• j 7£?E'C! -1 !CIF.*01

- i . J2SS-0! -1 : - :5F'0I -I S30t*OI -1 113E*01 - l . 9 3 9 E * 0 ; -1 951F..C! -1 35OE*C1 -2 035E*01 -2 O73K.0I -2 07SF.'0I -2 GSIE'01 -2 052E-01 -2.O17E.O1 -1 .992K'31 - ' . . 97 IE-0I - i .837K*3I

2.345E-C: 2.398E-02

2. 409E-02 2 361K-02 2 23SE-02 2.232E-32 2- l4 iE-32 2 C29E-C2 1 529E-32 1 '4SE-02 1.757E-C2 i 644E-C2

1 534K-C2 1 444E-C2 I 367E-C2 i. 27SK-C2 1 154KC2 i. 355E-C2 9. 52SE-C3 *. 355E-C3 S.0O2E-C: 7 = j3E- :3 7 112E C3 • 339E-C3 i 4 ; 3E-03 4.2Z5E-C3 2 I1ZE-33 4 =5 IE 31

-7 S35E-33 -3 155E-32 -5 3*7E-32

-4 521E-32 -5 333F-32

-5 E71K-32 -5 !S4E-52 -4 26IE 32 -3 M4E-32 - : 557E-C2 - I 560E-C2 -1 E47E-:3

3 7J5E-C3 ', 114K-02 1 "55E-02 2.45ZE-O2 3. 232F.-32 3 6ME-S2 5. 47BE-02 6 69OF.-O2 7.192E-02 7.840E-02 7.314E-O2 6.373E-02 5 EOOE-02 4. 9I9E-32 S. S2SF.-02

• 1 -

- 3 . -3 -3 -3 -3 -3 - 3 . - 3 . -3

-3

-2.

-2 -2. -2 -2. -I. -2 •2 -2 -2 - 2

-1 - i

- :

- :

!

2

3 3 4 2

3 2 1 3

-5 -1 -2 -2 -3 - i -5 -6 -7

-3 _a -9 -8 -8 -7

-2

[7t il:

41SE-O4 462E-04 471E-C4 4 3 i E - C 4 372K-O4 33SE-04

26£E-04 171E-C4 090E-C1 327r-04 556E-04 3E3E-04 7JCE-C4 7C4E-04 541E-O4 5 6 4 f - 3 4 4S9E-34 3 ' I E - 0 4 3C5E-04 226E-04 l - f t - 3 1 IO8K-04 352E-04

9S2E-34 353E-34

767E-04 5J9E 34 3 3 3 E 0 1 os i ;:-04 819E-04 155E-04 0 ? CF-C4 80SE-01 C75K-04 E-liE-04

C22E-O4 245E-C4 442E-C4

.394E-0S 66SE-05

. 44"E-34

. 1S5E-34 313F-04 260E-34 331F.-04

.30SE-04 226E-04 364E-04 135E-04

3S0E-O4 . 3 3 0 E - 0 4

8I0E 04 Z61F.-O4

. 7 3 8 E - 0 4 115F.-O3

h.jn

8. 359E-07 3 133E-C7 9. I63E-07 S .012E-07 3. 733E-07 8 . 5 3 6 E - 0 7

8 36SE-07 3 0C1E-07 7 687E-07 7.436E-C7 7.148E-O7

S.300E-C7 6.4JSE-07 6. 15OE-C7 5.912E-O7 5 658E-C7 5. 132E-07 4.851E-0T 4 60CE-0J 4 .237E-C7 3 951E-C7 2 318E-07 2 S37E-07 3. 3I4E-O7 2 .354E-C7 2 470E-07 1 758E-O7

9 . 8 0 7 E - 3 !

- 2 S 9 S E - 3 !

- 1 . 126E-06

• 1 . 2 S O F . - 0 6

- I .S82E-06 -1 34T:.-0e - 1 . 9 5 4 E - 3 6

-1 8 0 8 E - 0 6

- I SB-K-OS

- 1 332E-O6

-1 0 1 3 E - 0 5

- 6 2 I 4 E - C 7

- 2 25EE-37

E. 2 2 C F - 0 3

3 . 3 4 I E - 0 7

E 1 2 9 E - 0 7

7 019E-C7

1 1 7 3 E - 0 6

1 452E-06

I.827E-06 2. 242E-06 2 S3OE-06 3 1C5E-06 3. 184E-06 3.067E-06 2.9O4E-06 2.739E-06 8.47SE-06

-9 . -9 . - 9 . - 9 . -9 . - 8 .

a e j

2S4E-10 SOIE-IO 537E-1C 342E-10 O43E-1O 842E-10

- S . 4 S 0 E - 1 0

-8.014E-1C -7 . - 7 .

S94E-10 2S4E-1C

-6.865E-10 -5. -5. •h.

-i. -4 -4. - 3 . - 3 . - 3 . -2. -2

-2. - ; .

-1 -5

3 ;

i. 1 2 2 1 2 2 1 1 1

2 -1 -1 -5

-1 -1 -I -2 -2 - 3 -3 -3 - 3 -3 -1

394E-10 929E-10 538E-1C 202E-IO 791E-10 234E-10 782E-I0 449F.-1C C S 2 E - 1 0

596E-1C

4 1 1 E - 1 C

ISCK-10

73CE-10

26SK-10

I6ZF-1I 038E-I I 342E-10 929E-10 703E-09 8S8E-O9 27IE-09 597E-39 736F.-09 555E-C9

.23SE-09 910E-09

. SJ4E-03 091E-O9

9 1 9 ? - 1 3

. 2 7 5 E - 1 3

. I O S E - I O

6 9 3 E - I 0

S25E- IO

177E-O3 S65E-09 992E-09 J08E-03

.9E5E-09

.E61E-09 8 Z 1 E - 0 9

. 7 3 0 E - 0 9

. 55SE-O9 . 374F.-09

227E-O8

3. OOF.* 3 OOE* 3. OOE* 3 . 0 0 E * 3.OOE*

3 .001 ' . .

3. OOE*

02 02 02 02 02 32 02

3.OOEtOZ

3. OOF'

3. OOE.

3 OOE-3.OOE*

•32 02 02 02

3. coii ' -o; 3 . COE*

3 OOE*

02 02

3 O O - : * O 2

3. OOE.

3 .OOF'

•02

•02 3 00E.02 3 COE'

3 .COE'

3 OOE.

3. OOE'

3 . COK'

3 COF '

3. C O r '

3 COE-

3 oc;-:-3 OOE 3 COF-3 OOE 3 OCE 3 . OOF

•02 •02 •02 '32 >02 •02 '32

.02 •02 • 02

• 02

•02 • 02 .02

3. O C E . 0 2 3 OOE

3 OOE

3 OOE

3 OOE

3 30E

3 OOE

3 OOE

3 30E

3 OCE

3 33E

3 OOE

3 OOE

3 OOE

3 OOE

3 . OOE

3 . OOE

3 . OOE

3 . OOE

3. OOE

3.OOE

2.6OF

.02

. 0 2 <C2 • 02 .02 •02 •02 *02 *02 •02 ' 02 •02 •02

• 02 •02 •02 >02 • 02 •02 :*02 :*02

- 4 .

b j

174E-32 - 4 . I73F.--C3 - 4 . - 4 . -.;. -4 -i

-4 . - 4 . - 4 . -4 - i t .

- . ' .

- 4 . -1 - 4 . - 4 . • ( .

-4 -4 - 4 . - 4 . -4 -4 -i.

•I

-4 -1 -4 -4 -4 -4 -4 -4 -4 . - ' . -4 . -4 - ' -4

-1 -4 -4

4 -4 -4 -4

-4 -4 - 4 -4 -4 -4 -4 -1

173E-02 17SE-02 IS3E-O2

191E-C2 193E-C2 2 0 7 E - 0 1

2 i 5 K - O :

223F.-C2

230F-C2 Z37l:-C2 Z4is-c: 2 4 3 5 - 3 : 245E-O2 247E-02

249E-02 249E-0' 25OE-02 250E-0Z 2SOH-O2 250E-0: : ' ; 0E-02 :5OK-0i 250i-:-02 25OE-O2 2S0K-O2 2SOE-O2 2 S C E 0 ;

2S0E-02 ZSOE-OZ 250E-O2 2SOE-O2 253F-02 2 50K C2 253E-02 2SOE-02 253E-02 2SOF.-C2 :S3E- r ;2

. :S IK-O: I 4 1 E - C 2

I 4 3 E - 0 Z

1 4 2 E - 3 2

. 1 4 9 E - 0 2

1 4 6 E - 0 2

14OK-O2

142E-C2 . 1S-2E-02 . 159E-02 . 159E-O2 . 160E-02

I5OE-O2 161F.-0! 768E 01

Table 3.13 Reproduction ratio of dose equivalent of neutrons and secondary gamma rays in water

Table 3.1U Reproduction ratio of dose equivalent of neutrons and secondary gamma rays in ordinary concrete

Groin

l-n (>

R (cm)

-

10. IS. 20. 2u 30 35 40 45 50 60 70 80

| 90

100 120 140 160 180 200 250 ,100

350 400 450 300 550 600

030 700 730 800

i 850

| 300 i 950

1 1000 1 iOO

1200 )

So.

e\ ]

1 0 0 0 (1

0 0

0

0 0

0 0 0

0

0

0 0 0 0

0

0 0

0 0

0

0

0

0 0 0

0 .0 .0

.0

.0

.0

.0

.0

.0

.0

1

100. -

0.

0

0 0

0

0 0 0 0

0

1 1

0

0

0 0

0

1 1 0

11

(142

000 075 095 095 088 079 050 045 040 029 018 010 003 990 984 982 983 984 986 980 989 999 007 Oil 012 010 008

.iio; 003 .001 .998 .997

.992

.993

.996

.003

.005

. 999

37 5.

2nd. 7

5 1 1 0 0 0 0 0 0 0 0 0 0 0

0 0

0

1 t 0 0

0 0 0 0 0 1 1 1 1 1

02,1

930 266 977 839 7 G.I

721 682 675 672 G7G 696

7.1.1 771 808 892 987 071 149 219 314 323 310 218 .140

032 .964 .894

.H31

.830

.837

. H65

.907

. 969

.046

.14.1

. 297

. 190 79G

15

100. - 90.

0. 1. ! .

1. 1. 1. 1 1. 1 1 1 1 0

0 0

0 0 0 0 0 0

1 0 0 0 0 0 0 0 1 1 1

1 ••

n

695 035 090 OOP 083 074 062 027 022 015 009 002 996 993 98.1

981 982 985 9R9 994 991 004 012 020 018 016 008 004 . 997

994 991 .989 .988

.992

. 999

.001

.017

.014

.987

2nd. 7

5.

2 I.

a. 0. 0. 0 0. 0 0 0 0

0 0

o 0

0

0 0

0

0 0 0 0

0 1 1 1 1 -1

31,1

0G4 29» 992 845 763 716 673 6G4 G57 660 681 709 749 789 882 981 075 158 236 ,1,19 .178

325 252 142 039 950 89.1

8 35 819 820 .862 .886

.986

.069

.141

.309

.20.1

.785

22 . Ti¬

ll

0.9 GO . 2 8 6

.2.1S

. 1 63

.095

.0.19

1 .000 0.968 0.932 0.910

0.889 0.8 7.1

0.882

0.889 0 .8 94

0.918 0.95.1

0.998

.024

.044

.079

.091

.1 18 1.137

.105

.046

1.012 1.015

0 . 9 G 7 0 . 9 3 9

0 . 9 3 4 0 . 8 9 7 0 . 8 9 0

0 . 9 1 9 0 . 9 6 8

1 . 0 6 3

1 . 2 1 5

I . 1 75

C . M 9

19.6

2nd. 7

G.909

2.490

1 .459

1 .060

0.86 2 0 .74 9

0.6H2

0.64 2 O.GO7

0.588

0 . 5H 1 0.5^8

0 . 6 1 9

0.657 0 . 6 9 8

0 . 8 1 5

0 . 9 5 5

.112

.26.1

.400

.576

.569

.431

.262

.104

0 . 9 7 8 0 . 8 9 0

0 . 8 . 1 9

0 . 8 0 5

0 . 7 9 9 0 . 8 2 0 0 . 8 5 G

0 . 9 1 6 0 . 9 " 9

1 . 0 8 7

1 . M 7

1.31 6 1 .193

1.774

Group

i:nn

K(r«)

5. 10. 15. 20. 25. 30. 35. 10.

45.

50. CO

70. HO

90

100

110

120 130 140

150 160 170

180

190

200

220 240 260

2^0

300 350

400

450 500 550 r.oo

! 6 5 0

700

So.

nV)

L—|

0

0

0

0

0 0

0 0 0

0 0 (I

0

0 0

0 0 0 0 0 0 0 0 0 () 0 0 0 0 1 11 ! 0 0 0

" 0 0 0 0

1 1 1 1 0

0

0

0

0

0

i o

1 ° | 0

i " 0

1 1 1 I 1 1 1 1 1 1 1 1 1 1 0 0

i ° ( 0 1 1

i 1 1

1

100.-

n

.180

.173 092 .007

.974

.933

.940

.935

.934

.917

.931

.94 7

.96"-

.3s:i

.999

.01.1

.026

.0.16

.044

.042

.047

.051

.032

.052

.1)50

.043

.032

.018

. 003

.979

.948

.931

.936

.961

.003

.047

.072

.044

37 5.

2nd. 7

4. 1. 1.

0. 0.

0. 0.

0. 0.

0. 0. 0.

0.

0.

0 0

0

0 0

0

1 1 1 1

856 880 168 HG7 74.1

682 B5I) G52 G62 GG8 727 801 882 963 040 111)

170 219 256 270 284 287 280 265 24.1

183 HI 031 961 HB7 769 723 751 856

0,1.1 240 352 192

15

100. ~ 90.

1 . 1 . 1. 1 . 0. 0. 0. 0. 0. 0. 0. 0.

0. 0.

1).

1. 1. 1 . 1. 1 1 . 1 . 1 1

1 1 1 I) 0 0 0 0 0 1 1 1

_!.

n

162 220 115 037 987 328 915 910 910 914 329 948

962

9M

993

015 028 039 049 055 059 062 062 060 1)17

0.13

028 013 997 980 946 928 93,1 MO 001 11." I)

075 016

2nd. 7

5.030

1 .S9.1

1 . 2 I G

0.909

0.7G2

0.665

0.635 0.G2G

0.032

O.«5O 0.705

0.780 0.8 59 0.947

1.032

1.112

1.181 1 .238

1 .282

1.311 1.S27

1.331 1.32.1 1 .305 1 .267

1.200

1.119

1 .035

0.954 0.R81

0.731 0.701 0.7,10

9.S42 I .0.15

1 .265

1 . .19.1 1.215

1 1 1 1 C ( f

c t (

29

22.5-

11

722 .425

. 1 2 °

.009

.936

. 890

.«C2

.847

.841

.830

0.848

r ( (

.876

.911

.948

0.985

.020

.051

.077

.098

. 035

.115

. 130

.140

.144

.143

.129

.101

.065

.019 0.976

0.873

3.835 1.818

1.869

.017

.090

.272

.131

19.6

2nd. 7

6.039 2.286

1.276

0.942 0.776

0.688

0.641 0.619

0.61.1

O.Gil 0.650

0.712

(1.783 0.876

0.968

1 .061

1 .151

1 .2.1,1 1 .305

1.341 1 .392 1 .427 1 .445

1.446

1 .4.12

1 .363

1.257

1 .133 1 .007

0.893 0.G79 0.596 0.617

0.75,1

1 .024

1 .404 1.631

1 .348

Taale 3.15 Reproduction ratio of dose equivalent of neutrons and secondary gamma rays in iron

Table 3.16 Attenuation lengths ( A u) vs. source neutron energies unlt(kg/B»)

Group Vn.

Kn(MeV)

R (cm) I

5.0 10.0 15.0 20.0 25.0 30.0 35.0 40.0 45.0 50.0 55.0 GO.O C5.0 70.0 75.0 80.0 85.0 30.0 95.0 100.0 1)0.0 120.0 130.0 140.0 150.0 160.0 170.0 180.0 190.0 200.0 220.0 240.0 2C0.0 280.0 300.0 350.0 400.0 450.0

1

400.~ 375.

n

1.855 1 .225 0.950 0.855 0.815 0.804 0.810 0.821 0.845 0.875 0.904 0.936 0.967 0.998 1 .027 1.053 1.077 1 .098 1.115 .118 .136 .140 .133 .116 .092 .063 .031

0.999 0.969 0.938 0.894 0.871 0.872 0.897 0.948 1 .148 1.263 0.870

2nd. r

1.483 0.985 0.872 0.877 0.901 0.927 0.950 0.962 0.97G 0.987 0.995 1.002 1.007 1.012 1.016 .020 .024 .027 .029 .022 .02G .028 .028 .027 .023 .018

1.011 1.003 0.995 0.984 0.970 0.961 0.95!) 0.966 0.981 1.040 1.079 0.957

15

100. ~ 90.

n

1 .783 1.214 0.958 0.868 0.829 0.817 0.822 0.831 0.852 0.878 0.905 0.934 0. 9G3 0.992 1.018 .044 .067 .087 .104 .107 .128 . 135 .132 .118 .097 .070 .040 .008

0.977 0.944 0.897 0.870 0.868 0.891 0.941 1.147 1.272 0.868

2nd. r

1.358 0.923 0.846 0.881 0.931 0.977 1.009 1.022 1.031 1.033 1.030 1.025 1 .019 1.013 1.008 1.004 1 .001 0.998 0.997 0.987 0.989 0.993 0.997 1.001 1.004 1.007 1.009 1 .009 1.008 1.003 0.997 0.991 0.987 0.985 0.988 1.007 1.031 0.985

29

22.5- 19.H

n

1.501 1.180 0.972 0.903 0.873 0.664 0.867 0.873 0.888 0.906 0.926 0.947 0.968 0.989 .009 .028 .045 .061 .075 .076 .094

1.103 1.102 1.094 1.078 1 .057 1.033 1.008 0.983 0.956 0.918 0.897 0.896 0.916 0.956 1.113 1.199 0.898

2nd. r

0.973 0.807 0.821 0.94 2 .073 .170 .211 . 198 .165 .121 .076 .037 .004

0.978 0.958 0.943 0.933 0.927 0.924 0.914 0.921 0.933 0.949 0.967 0.985 1.003 1.018 1 .031 1 .04 2 1 .046 1 .053 1.048 1 .034 1.015 0.994 0.946 0.949 1.040

Energy

Group

1 2 3 4 5 G 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

En (.lev)

400 375 350 325 300 275 250 225 200 180 160 140 120 110 100 90 80 70 65 60 55 50 45 40 35 30

27.5 25.0 22.5 20.0 19.6 17.5

- 375 - 350 - 325 - 300 - 275 - 250 - 225 - 200 - 180 - 160 - 140 - 120 - 110 - 100 - 90 - 80 - 70 - G5 - 60

55 - 50 - 45 - 40 - 35 - 30 -27.5 -25.0 -22.5 -20.0 - 19.6 - 17.5 - 14.9

Attenuation

Water

880 870 860 840 830 810 790 770 750 720 690 640 590 560 530 490 450 400 380 350 330 310 280 260 2.10 190 180 160 140 120 120 120

Lengths (;. <>'

Concrete

1030 1020 1010 1000 990 980 960 950 930 890 860 820 770 740 700 660 610 5G0 530 500 470 440 420 390 360 320 310 300 290 270 250 250

I ron

1820 1820 1820 1820 1820 1820 1820 1820 1820 1820 1820 1B20 1820 1820 1820 1820 1820 1820 1820 1820 1820 1820 1820 1R20 1820 1820 1820 1820 1820 1820 1820 1820

I

n \

Table 3.17 Infinite medium effect CH (En,r) of neutrons and secondary gamma rays for water (1/2)

ncu t; r on

JleV en

5.

1 5 .

3 0 .

5 0 .

100.

200.

400.

400.

0.99

0.97

0.95

0.94

0.92

0.91

0.89

200.

0.98

0.95

0.94

0.92

0.91

0.90

0.89

100.

0.97

0.94

0.92

0.91

0.90

0.89

0.88

5 0 .

0.96

0.92

0.90

0.89

0.88

0.86

0.85

2 0 .

0.93

0.87

0.85

0.83

0.81

0.81

0.80

1 0 .

0.90

0.83

0.80

0.79

0.78

0.78

Table 3.17 Infinite medium effect CH (En,r) of neutrons and secondary gamma rays for water (2/2)

neutron

MeV

cm

5.

1 5 .

3 0 .

SO.

100.

200.

400.

5 . 0

0.88

0.79

0,76

0.75

0.74

0.74

0.74

2 . 0

0.81

0.64

0.57

0.56

0.5C

0.55

0.55

1.0

0.74

0.41

0.27

0.21

0.20

0.20

0.20

0 . 1

0.26

0.16

0.1G

0.20

0.27

0.29

0.01

0.20

0.16

0.1G

0.24

0.27

0.29

\

Secondary gamma r- ay eamma ray

McV

5 .

1 5 .

3 0 .

5 0 .

100.

200.

400.

400.

0.05

0.22

0.35

0.41

0.41

0.38

0.37

200.

0.05

0.23

0.37

0.43

0.44

0.41

0.39

100.

0.06

0.24

0.40

0.47

0.49

0.47

0.45

5 0 .

0.06

0.26

0.43

0.52

0.58

0.60

0.67

20.

0.09

0.31

0.52

0.65

0.78

0.86

0.91

10 .

0.38

0.48

0.68

0.80

0.85

0.87

MeV

CM

5.

1 5 .

3 0 .

5 0 .

100.

200.

400.

5 . 0

0.04

0.41

0.72

0.82

0.81

0.80

0.80

2 . 0

O.OG

0.58

0.85

0.84

0.81

0.80

0.80

1.0

0.09

0.69

0.87

0.84

0.81

0.81

0.81

0 . 1

0.19

0.81

0.87

0.84

0.81

0.80

o.ot

0.25

0.84

0.87

0.84

0.81

0.80

Table 3.18 Infinite medium effect CH (En,r) of neutrons and secondary gamma rays for oMinary concrete (1/2)

Table 3.18 Infinite medium effect CH (En,r) of neutrons and secondary gamma rays for ordinary concrete (2/2)

nrul ro neutron

MoV cm

5 .

1 5 .

3 0 .

5 0 .

100.

200.

400.

4(10.

0.93

0.H0

0.74

0.71

0.69

0.67

0.65

200.

0.91

0.77

0.71

0.69

0.67

0.66

0.65

100.

0.89

0.74

0.69

0.67

0.66

0.64

0.64

5 0 .

0.S7

0.72

0.67

0.64

0.63

0.62

0.61

2 0 .

0.83

0.68

0.62

0.59

0.57

0.56

0.55

10 .

0.81

0.G6

0.G0

0.57

0.55

0.53

0.53

HeV ca

5 .

1 5 .

3 0 .

5 0 .

100.

230.

400.

5 .

0.77

0.61

0.57

0.54

0.50

0.47

0.46

2 .

0.70

0.57

0.51

0.41

0.27

0.24

0.24

1 .

O.fiG

0.56

0.38

0.26

0.24

0.24

0.27

0 . 1

0.63

0.31

0.25

0.24

0.24

0.27

0.29

0.01

0.38

0.2f>

0.24

0.2-1

0.24

0.26

0.27

Soc-

I P I cm

5.

15.

3 0 .

5 0 .

100.

200.

400.

o ndary

400.

0.13

0.15

0.22

0.30

0 .33

0.32

0.32

tx i\ m in t\

200.

0.13

0.15

0.24

0.32

0.36

0.35

0.35

r ixy

too.

0. 15

0.16

0.26

0.36

0.41

0.40

0.40

5 0 .

0.15

0.17

0.29

0.41

0.51

0.54

0.56

0

0

0

0

0

0

0

2 0 .

. 21

. 2 3

. 3 5

. 5 0

. 6 8

. 8 6

. 9 3

1 0 .

0.37

0.23

0.32

0.50

0. 7fi

0.92

0.94

S o o o n <1 n r y f»in in a r a y

McV CM

5.

1 5 .

3 0 .

5 0 .

100.

200.

400.

0

0

0

0

0

0

0

5.

. 37

. 2 3

. 3 2

.50

.76

. 9 3

.94

0

0

0

0

0

0

0

2 .

. 0 5

. 0 9

. 3 7

. 6 3

. 8 8

.94

. 9 4

0

0

0

0

0

0

0

1.

. 01

. 12

. 4 5

. 7 0

. 9 0

.94

.94

0 . 1

0.01

0.20

0.53

0.75

0.91

0.94

0.94

0

0

0

0

0

0

0

0

.01

.04

.30

.60

. 78

.91

.94

.94

Table 3.19 Infinite medium effect C,, (En,r) of neutrons and secondary gamma rays for iron (1/2)

ii ou t run

Mi-1 cm

5.

1 5 .

3 0 .

5 0 .

100.

j 200.

•100.

400 .

0.54

0.34

0 .30

0 .29

0 .28

0 .26

o.2;i

200.

0.55

0.315

0.30

0.21)

0.28

0.25

0 .23

100.

0 .57

0. 30

0.31

0.30

0 .28

0.24

0.22

5 0 .

0 .58

0 .37

0 . :t2

0 .30

0 .27

0 .23

0 .22

2 0 .

0 .58

0 .38

0.32

0.29

0.27

0 .23

0.22

10 .

0. B1

0.38

0. 32

0.29

0. 27

0. 2.1

0.22

Table 3.19 Infinite medium effect CH (En,r) of neutrons and secondary gamma rays for iron (2/2)

ri o n I. r o n

MoV

('31

5 .

1 5 .

3 0 .

r.o.

10U.

200.

5.

0.57

0.38

0.31

0.2'J

r—-0.24

400. | 0.2.1 i

2 .

0 . 5 3

0 .38

0.31

0 .29

0 .27

0 . 2 3

0 .22

1.

0 .59

0.39

0.32

0.29

0.2G

0. 23

0. 22

0 .1

0.48

0.33

0.27

0.23

0.22

0.22

0.22

0.01

0.23

0.16

0.17

0.19

0.20

0.21

0.21

id/1 ry r~ txy

rai

1 5 .

3 0 .

50 .

1 00 .

200.

I'Nl.

400.

0 .36

0. .13

0 .25

0 .17

o.u

0 .15

0. IG

200.

0 .37

0.34

0 .25

0 . 1 fi

0. 13

0 .15

II. I <;

100.

0 .39

0.3G

0.25

0. 15

0. 13

0.1G

0. 16

5 0 .

0 .40

O.Dfi

0 .25

0 .13

0 .13

0. Ifi

O.lf,

0.10

-J I

I)

0

0

2 0 .

. 3 9

. 4 2

.24

0

(I

0

10.

. 07

.59

. 30

0.13 I 0.13 |

0. I R | 0.16

o . 11; i o. i B

•JAKKI [)nte/C'ode 91 003

s

10

10"

10"

-5 i i r i i i i l i r

Water

252 Cf -

X 10 - 9

10

10

-10

- l i

10 - 1 2

>- ] 3

2nd. y ray

HILO86R > .IS D100

0 100 200

Thickness(cm) Fig.2.1 Comparison of dose equivalent in water calculated with

HIL086R and JSD100 for 252Cf neutron source.

-5 10

S Urfl -

X

c 10

X 10

<£ 10"

"8

10"" h

10 — 1

0 100 200

Thickness(cm) Fig.2.2 Comparison of dose equivalent in ordinary concrete calculated

with HIL086R and JSD100 for 252Cf neutron source.

300

1

f 1 2nd.

\

Y

i

\

ray

1 ' 1

V neutron

HILO86R JSD100

, , 1

i i

\

i i

i

1 1

1 '

Vs,"

i i i

Orclinjiry concrete —

»Cf -

300

- 5 5 -

.IAKH1 Da 91 O(Ki

It) "5

S nr6 -

7 io-7

x • £ JO"8

l (T 9 h

E 10"nr-

K l""1 2h

10 -13

1 1

-

2nd.

1 ' 1

y ray

H 1 L 0 K 6 R

. ISD100

i i 1

i i i

neutron

i i i

i 1 i i i

Iron

2 5 2 C

i 1 i i i

i

f

-

i

) 100 200 Thickncss(cm)

Fig.2.3 Comparison of dose equivalent in iron calculated with HILO86R and JSD100 for 2"C'f neutron source.

300

X

s

X

i n - 6

10""

10" 1 2

i o ~ l s

i n - 1 8

iir21

K)"2-4

10"27

i n " 3 0

- "X \ "~~

_ neutron \ ^

\ — \ — \c;2<;

: \

i i . . 1 i . i \ 1

i

G2:

\ .

i

i i

Water _

c.y _

< i 1 5 —

1 -

t (

0 500 1000

Thickness(cm) Fig.3.1 Neutron dose equivalent in water for monoenergetic neutron

sources (G1=»IOO.-375., G5=300.-275., G9=200.-180., G15=100.-90., G22=50.-U5., G29=22.5-19.6MeV).

- 5 6 -

.1AKK! Date/Code 94 003

S io-9 -

* i o - 1 2

x J O " 1 5

1/3

U

1

-

:

i i

i i

L

I

\

2nd. y

i

i

ray

i

1 1 '

1

1

• ; — ^ _ _ _ ^

(

1

1 1

J 2 9

1 1

| 1 I 1

Water -

^r-^G! I

\ _ G9

~ \ G15

N>^ G22

"X ; i

0 500 1000 Thickness(cm)

Fig.3.2 Secondary gamma-ray dose equivalent in water for monoenergetic neutron sources (G1=400.-375., G5=300.-275., G9=200.-180., G15=100. -90., G22=50.-45., G29=22.5-19.6MeV).

Z nr ( ;h

1 0 - ] 2 r -

I i c r 2 4 k

()-27 h

10 -30

= ^ ^ = ^ X . -— —

_ nculron

-

" • • . I

' 1

" \ ^

x s

1 1

1

7/

\

i

1 i

\

, i

| • i

Ordinary — concrete

— G 1

•• ^ G 9 _

G 1 5 -

^ v ^ - G22 ~

s

X I 1 . 1

200 400 600 800

Thickness(cm) Fig.3.3 Neutron dose equivalent in ordinary concrete for raonoenergetic

neutron sources (G1 =400.-375., (35=300.-275., G9=200.-180., G15=100. -90. , G22=50.-45., G29=22.5-19.6MeV).

- 5 7 -

.JAKKI DHlc/Oxie 94 003

0 200 400 600

Thickness(cm) Fig.3.4 Secondary gamma-ray dose equivalent in ordinary concrete for

raonoenergetic neutron sources (G1=400.-375., G5=300.-275., G9=2O0. -180., G15=100.-90., G22=50.-i(5., G29=22.5-19.6MeV).

800

T 1

0

Iron

I 400 200

Thickness(cm) Fig.3.5 Neutron dose equivalent in iron for monoenergetic neutron

sources (G1=UO0.-375., G5=300.-275., G9=2OO.-18O., G15=100.-90., G22=50.-15., G29=22.5-19.6MeV)

- 5 8 -

.JAEKI - Date/Code 94 - 003

0 400 200

Thickness(cm) Fig.3.6 Secondary gamma-ray dose equivalent in iron for monoenergetic

neutron sources (G1=H00.-375., G5=300.-275., G9=200.-l80., G15=100. -90., G22=50.-U5., G29=22.5-19.6MeV).

1500

fefi

s o

•M

C3 S c

500

k' ; H(r)= Hox k ; H(r)= Hox

_ i 1 i

Watei

i I •

500 Thickness(cm)

1000

Fig.3.7 Attenuation length vs. thickness for different sources in water.

- 5 9 -

JAEKI - I); 94-003

^ 1500

OJD 1000

c

c o

3

e <u

500

0

X' ; H(r) = II()x cxp(-r/K')/4jir* K ; II(r) = H,,x cxp(-rA)

0 200 400

Thickness(cm) Fig.3.8 Attenuation length vs. thickness for different sources in

ordinary concrete.

600

5 ~M 2000

CD C

o •t-t

S3 C

1000

}.'; H(r)= M() x cxp(-r/X';/4jtr"i

X ; H(r)= Ho x cxp( - r / ?0

1

Iron

200

Thickness(cm) 400

Fig.3.9 Attenuation length vs. thickness for different sources in iron.

- 6 0 -

.JAKR1 - Unte/Cfide 94-003

Water

neutron

Fig.3.10 Infinite medium effect CH (En, r) of dose equivalent for neutrons in water.

Water 2nd. y-ray

Fig.3.11 Infinite medium effect CH (En, r) of dose equivalent for secondary gamma rays in water.

- 6 1 -

•JAKKI Datc/Codi- 94 (MM

Concrete neutron

K(MQV) "'"

Fig.3.12 Infinite medium effect C,, (En> r) of dose equivalent for neutrons in ordinary concrete.

Concrete

2nd.y-ray

Fig.3.13 Infinite medium effect Q, (En, r) of dose equivalent for secondary gamma rays in ordinary concrete.

- 6 2 -

IAKKI--Date/Code 94-003

Fig.3.1U Infinite medium effect CH (En, r) of neutrons in iron.

Fig.3.15 Infinite medium effect CH (En> r) of dose secondary gamma rays in iron.

Thickness(m)

equivalent for

- 6 3 -

.JAKM--Daw Code 94- 003

2000

J500

CD C

1000

c o

« 500 -G

I

Water

present value

I 1 0 l J TO1 10- 1 ()

En(MeV) io4

Fig.U.I Energy dependence of attenuation length obtained at different thicknesses in water.

1500 -

•Z IOOO -

c

c o

s c

500 -

0

1 Ordinary concrete

-

-

I

i 1 1

y 300cm

J"^ + + 500cm

Vfy^ 100°Cm

j 0 X > ^ ^° E,,(McV) -

FfCCr

^ F + Alsmiller et a l n )

J1" ® Wycoff et al. I2)

^ * Gilbert et a l . (ear th) 1 ? )

Recommended values by Thomas et al .1 0 )

present value

1 1 1 JO4 IQr 10-1

En(MeV) Fig.U.2 Energy dependence of attenuation length obtained at different

thicknesses in ordinary concrete, in wrich other data are compared. Gilbert et al.'s data denotes for 1U.6 and 26.U GeV/c protons.

- 6 4 -

./AKKI - Uaie/Codf 94 - 003

ffi 10"

10 -21

Alsmiller et al.(plane)n)

present data(plane) present data(spherical)

I I 200

Ordinary concrete

400McV

400 600 Thickness(cm)

800

Fig.il.3 Comparison with Alsmiller et a l . ' s data for dose equivalent in plane geometry.

1000

^ 1500

Is "DC

xi M 1000 s 4)

c o

c

<

500

0

I O O M C V

50McV

x cxp(-r/>0 fininj;

present data(plane)

I I 0 200 800 400 600

Thickness(cm) Fig.U. 14 Attenuation length of ordinary concrete for different neutron

energies in plane geometry.

1000

- 6 5 -

.JAKKI-Date/Code 94- 003

3000

N

^ 2000

s

c .2 IOOO

3

Iron

E, . (MeV)

*

i * Ban ct a l . 1 4 )

I H o w e et al . 3 '

@ S t e v e n s o n e t . a l . I 6 )

with H I L O 8 6 R

with H I L O 8 6

I ,__! ,_ 10u 10' ur in-

En(MeV) Fig.U.5 Energy dependence of attenuation length obtained in iron,

in which other data are compared. Experimental data by Ban et al . and Howe et a l . and evaluated data by Stevenson et al . were given for incident proton energy in MeV.

- 6 6 -

JAKKI Date/Code <M - OO.'i

Appendix:

1. Attenuation Lengths in Ordinary Concrete 68

2. Attenuation Lengths in Iron 69

3. References 70

- 6 7 -

•JAKKI Date/Dido 94 003

Table A.1 Attenuation lengths in concrete (from refs. [0] and [11])

Incident particle

BNL

BNL

CERN

CERN

UCRL

UCRL

UCRL

ANL

CERN

KEK

KEK

P

P

P

P

P

P

P

P

P

P

P

Bean energy [GeV]

1.5

2.5

24

20

6.2

6.2

6.2

12.5

15 27

0.74

12

Shie

naterial

concrete

concrete

concrete

heavy con

concrete

concrete

concrete

concrete

earth

concrete

concrete

Ids density [gem-3]

4.~4.3

4.~4.3

2.5

3.6

2.4

2.4

2.4

3.8

2.2

3.5

2.35

De tec ••or

CT

CT

G5

G5

llC

"Al

*"Au

IC

llC 1TA1

MP

MP

[gc«-*J

130± 15

169 ± 32

145± 10

115± 15

108± 20

112± 20

116± 20

173± 18

117± 2 117± 2

120

143

Ref.

tl]

(1)

[2]

(2|

[3]

[3]

[3]

151

(61

[91

[111

Remarks

wide bean

narrow bean

CT: Counter Telescope./llC,"Al,a2S,: Activation detectors, /G5: Nuclear emulsion./IC: Ionisation Chamber, /MP: Estimated value for Moyer Parameter

- 6 8 -

.JAKKI Diitf/Codi- <M 003

Table A.2 Attenuation lengths in iron (from refs. [0] and [11])

Incident particle

CERN

CERN

CERN

CERN

CERN

CERN

CERN

ANL

KEK

CERN

RHEL

KEK

P

P

P

P

P

P

P

P

P

P

P

P

Beaa energy [GeV]

20

20

10

10

10 & 20

10 & 20

10 ft 20

12.5

12

7

7 .4

0.74

Shic

•aterial

steel

steel

steel

steel

steel

steel

steel

steel

steel

steel

steel

steel

>lds density [gci-»]

7 .8

7 .8

7 .8

7 .8

7 .8

7 .8

7 .8

7 .8

7.0~7.2

7.8

7.8

7 .5

De tec tor

G5

G5

G5

G5

IC

MC

MC

IC

l l C

MP

HP

MP

120+ 10

185± 20

119± 5

165±

155± 16

128+ 8

185± 10

142± 15

188± 12

147± 10

H"

160

Ref.

[4-11]

[4-II]

[4-III]

[4-III1

(4-IV!

[4-VI]

[4-VI]

[5]

[101

[7]

[8 ]

[9]

Reaarks

beai axis

Integ.beaa

beaa axis

Integ.beaa

beaa axis

Integ.beaa

G5: Nuclear emulsion./MC: Monte Carlo calculation, /"C, 2 TA1,"S,: Activation detectors./IC: Ionisation Chaaber, /MP: Estimated value for Moyer Paraaeter

- 6 9 -

. I A K K I D . i i c C m l c i l l (Hi:<

References [0] R.H. Thomas:"Proton Synchrotron Accelarators",Engineering

Compendium on Radiation Shielding,1,56(1968). [I] S.J. Lindenbaum,Ann.Rev.Nuc.Sci.n.,213(1961). [2] A. Citron et al.,Nucl.Inst. and Methods 14,97(1961). [3] A.R. Smith:UCRL-11331(1964). [4] H. Bindewald et al. .Nucl.Inst.Meth. 32.45(1965). [4-1] J. Geibel et al.:"Part I:General Description of the Experiment",

N.I.M.32,pp.45-47(1965). [4-II] A. Citron et al.:"Part II:A Study of the Nuclear Cascade in Steel

by 19.2 GeV Protons",N.I.M.32,pp.48-52(1965). [4-III] R.L. Childers et al.:"Part III Measurement of the Nuclear

Cascade at 10 GeV/c with Emulsion",N.I.M.32,pp.53-56(1965). [4-IV] J. Baarli et al.:"Part IV:Measurements of A 10 and 19.2 GeV

Proton Beam in Steel Using Ionlzation Chambers and Plastic Phosphors",N.I.M.32,pp.57-60(1965).

[4-V] L. Hoffmann et al.:"Part V:Studies of the Shielding Required for the Secondary Radiation Produced by a Target in a High-Energy Proton Beam",N.I.M.32.pp.61-64(1965).

[4-VI] J.A. Geibel and J. Ranft:"Part VI:Monte Carlo Calculation of the Nucleon Meson Cascade in Shielding Materials",N.I.M.32. pp.65-69(1965).

[5] H.J. Howe Jr., et al.:"0n the Shielding of the External Proton Tunnel Area of Argonne's Zero Gradient Synchrotron",ANL-7273Q966).

[6] W.S. Gilbert et al.:"1966 CERN-LBL-RHEL Shielding Experiment at the CERN Proton Synchrotron" .UCRL-1794K1968).

[7] G.R. Stevenson et al.,Health Phys. 43 13(1969). [8] K.B. Shaw and G.R. Stevenson:"Radiation Studies Around Extracted

Proton Beams at NIMROD".IEEE.Trans.Nucl.Sci. NS-16 570(1969). [9] R.H. Thomas:"Transverse Shielding for KENS:II",Studies on Current

Problems of Radiation Shielding in KEK.KEK-78-7.pp.15-28(1978). [10] S. Ban et al.,Nucl.Inst.Meth.174,271(1980). [II] S. Ban:"Studies on the Shielding of High Energy Proton

Synchrotron",Report at KEK(1982),in Japanese.

-70 -

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ATTENUATION DATA OF POINT ISOTROPIC NEUTRON SOURCES UP TO 400HtV IN WATER, ORDINARY CONCRCTE AND IRON