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![Page 1: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/1.jpg)
Fragmentation mechanisms for Methane
induced by electron impact
Fudan University
魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明
![Page 2: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/2.jpg)
Outline
Motivation: Why we study e--molecule interaction
The recoil-ion momentum spectroscopy at Fudan University
Interaction between the low energy electron with Methane
Summery and Outlook
![Page 3: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/3.jpg)
ProjectileTarget
Free Electron
Recoil Ion
e--molecule collisions could be an ideal model system to study the atomic many-body systems.
Motivation
![Page 4: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/4.jpg)
Plasma-Wall Interactions (PWI)
![Page 5: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/5.jpg)
Molecular Processes Issues in Edge and Divertor Plasma Region
e- + H2 H2+ + e- +e- H+ + H + e- + e-
H+ + H+ + 3e-
e- + H2 H + H + e-
e- + CH4 CH4+ + e- + e-
CH3+ + H + e- + e-
CH42+ + 3e- CH3
+ + H+ + 3e-
· · · · · · · --- R. K. Janev, Contemporary Physics 46 (2005) 121
![Page 6: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/6.jpg)
Outline
Motivation: Why we study e--molecule interaction
The recoil-ion momentum spectroscopy at Fudan University
Interaction between the low energy electron with Methane
Summery and Outlook
![Page 7: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/7.jpg)
Principle of momentum image
-- from Frankfurt University
![Page 8: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/8.jpg)
Principle of momentum image
Beam
Recoil Ion
trajectory
x, y
TOF
y
x
z
Extraction Field
Detector
x, y Transverse MomentumTOF Longitudinal Momentum
![Page 9: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/9.jpg)
Experimental setup
Electrostatic field & Pulse field
![Page 10: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/10.jpg)
Experimental setup
Time of Flight Detector Electronics V ME
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Supersonic Gas-jet
gas in
Skimmer 1
Skimmer 2
Skimmer 3
Gas-jet
P1
P2
P4
P3
Pump 5
Pump 4
Pump 3
Pump 2
Pump 1
P5
P0
stageDiameter
(mm)Turbomolecular
pumps (l/s)Background
Vacuum (Torr)
Vacuum (4 bar gas injection)
1 0.03 1000 1.6×10-6 1×10-5
2 0.1 300 7.6×10-8 2.1×10-7
3 0.3 80 2.7×10-9 1.9×10-8
4 1.5 300 1.2×10-10 1.2×10-10
5 3 300 2.0×10-11 1.2×10-9
![Page 12: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/12.jpg)
Low Energy Electron Gun
Electron Energy: 1~2000 eV
Energy spread : 0.4 eV
Current: 1nA ~ 10 μA
ELG-2 / EGPS-1022,Kimball Physics
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Experimental setup
Y. Zhang, et al, NIMB 337 (2014) 39–44
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The first ionization energy of He is 24.59 eV
The energy spread of the pulsed beam is about 8.5 eV
The energy spread of the pulsed electron beam
Y. Zhang, et al, NIMB 337 (2014) 39–44
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0 20 40 60 80 100 120 140 1600.0
0.2
0.4
0.6
0.8
1.0
Rel
ativ
e C
ross
Sec
tion
E0(eV)
CH3
+
CH2
+
CH+
C+
0 20 40 60 80 100 120 140 1600.0
0.2
0.4
0.6
0.8
1.0
Rel
ativ
e C
ross
Sec
tion
E0 (eV)
C2H
3
+
C2H
2
+
C2H+
C2
+
The Relative Cross Section of Dissociation Process
B. Wei, et al, J. Phys. B 46 (2013) 215205
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Outline
Motivation: Why we study e--molecule interaction
The recoil-ion momentum spectroscopy at Fudan University
Interaction between the low energy electron with Methane
Summery and Outlook
![Page 17: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/17.jpg)
CH42+ CH2
+ + H+ + H
CH3+* + H+ CH2
+ + H+ + H
CH2+ + H2
+* CH2+ + H+ + H
CH32+ + H CH2
+ + H+ + H
Molecular Processes Issues
Synchronous concerted
Two S
tep
No CH32+ in TOF Spectrum.
Then no reaction related CH32+.
![Page 18: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/18.jpg)
Fragmentation mechanism of CH42+
![Page 19: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/19.jpg)
Fragmentation mechanism of CH42+
![Page 20: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/20.jpg)
Fragmentation mechanism of CH42+
Reaction Channel 55 eV 75 eV 100 eV 4 keV* 10 keV**
CH3+ + H+ - 1.00 ± 0.01 - 1.00 ± 0.01 - 1.00 ± 0.01 - 1.03 ± 0.17 - 1.00 ± 0.02
CH2+ + H+ + H - 0.95 ± 0.02 - 0.95 ± 0.02 - 0.95 ± 0.01 - 1.11 ± 0.18 - 0.94 ± 0.04
CH+ + H+ + 2H - 0.87 ± 0.05 - 0.85 ± 0.03 - 0.81 ± 0.02 - 0.93 ± 0.16 - 0.90 ± 0.04
C+ + H+ + 3H - 0.80 ± 0.10 - 0.68 ± 0.05 - 0.61 ± 0.03 - 0.80 ± 0.16 - 0.68 ± 0.06
CH2+ + H2
+ - 1.00 ± 0.01 - 1.00 ± 0.01 - 1.00 ± 0.01 - 1.01 ± 0.17 - 1.00 ± 0.02
CH+ + H2+ + H - 0.85 ± 0.10 - 0.84 ± 0.10 - 0.78 ± 0.08 - 0.97 ± 0.08
C+ + H2+ + 2H - 0.69 ± 0.11 - 0.75 ± 0.10 - 0.74 ± 0.10 - 0.80 ± 0.08
* R. Flammini, et al, New Journal of Physics 11 (2009) 083006** R. Singh, et al, Phys. Rev. A 87 (2013) 062706
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H+
+
CH42+→ CH2
+ + H+ + H
Fragmentation mechanism of CH42+
Synchronous concerted reaction
![Page 22: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/22.jpg)
H+ H+
++
Fragmentation mechanism of CH42+
Two-step reaction
CH42+→ CH3
+* + H+ → CH2
+ + H + H+
![Page 23: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/23.jpg)
H+
+
+
+
Fragmentation mechanism of CH42+
Two-step reaction
CH42+→ CH2
+ + H2+*
→ CH2+ + H + H+
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CH42+→CH2
+ + H+ + H
The momentum of H depends on
the fragmentation mechanism.
Fragmentation mechanism of CH42+
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The neutral fragments produced in the two-step fragmentation
shared the momentum with the charged fragments.
H2+*
CH3+*
Fragmentation mechanism of CH42+
B. Wei, et al, J. Chem. Phys. 140 (2014) 124303
𝜋 𝑖=𝑝𝑖2/∑ 𝑝 𝑗
2
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CH42+→CH+ + H+ + 2H/H2
Fragmentation mechanism of CH42+
B. Wei, et al, J. Chem. Phys. 140 (2014) 124303
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CH42+→C+ + H+ + 3H
Fragmentation mechanism of CH42+
B. Wei, et al, J. Chem. Phys. 140 (2014) 124303
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Fragmentation mechanism of CH42+
CH42+→CH2
+ + H+ + H
CH42+→CH+ + H+ + 2H/H2
CH42+→C+ + H+ + 3H
![Page 29: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/29.jpg)
-40 -30 -20 -10 0 10 20 30 40
Momuntum (a.u.)
H2H
3H
Fragmentation mechanism of CH42+
H+CHn+
Two-step: Asynchronous concerted reaction
Momentum distribution of neutral particle
R. Flammini, NJP 11 (2009) 083006
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Fragmentation mechanism of CH42+
kinetic energy release
![Page 31: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/31.jpg)
Fragmentation mechanism of CO22+
X. Wang, et al, Phys. Rev. A (Accepted)
Significant contribution from two-step channelCO2
2+ CO+ + O+ C+ +O+ + O was distiguished.
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e- + CH4 CH4+ + 2e-
CH3+ + H + 2e-
CH2+ + 2H/H2 + 2e-
CH+ + 3H + 2e-
……………….
Molecular Processes Issues
![Page 33: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/33.jpg)
CH4 + → CH3
+ + H 1.6 eV
CH4 + → CH2+ + H2 2.5 eV
→ CH2+ + 2H 7.0 eV
The kinetic energy distribution of fragment ions
E0 = 70 eV
![Page 34: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/34.jpg)
The kinetic energy of fragment ions
The average kinetic energy for recoil ion produce in collision of e - Methane as a function of incident energy.
B. Wei, et al, J. Phys. B 46 (2013) 215205
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The kinetic energy of fragment ions
𝐸𝑘=(𝐸1−𝐸0 ∙𝑚1
𝑚0
)×𝑚0
𝑚0−𝑚1
E0 ~ 14 meV, E1 ~ 25 meV
The kinetic energy release Ek = 185 meV
CH4+
E0, m0
CH3+
E1, m1
+ H
B. Wei, et al, J. Phys. B 46 (2013) 215205
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Outline
Motivation: Why we study e--molecule interaction
The recoil-ion momentum spectroscopy at Fudan University
Interaction between the low energy electron with Methane
Summery and Outlook
![Page 37: Fragmentation mechanisms for Methane induced by electron impact Fudan University 魏宝仁 王新成、张煜、路迪、 Roger Hutton 、邹亚明 王新成、张煜、路迪、 Roger](https://reader033.fdocument.pub/reader033/viewer/2022061419/56649e605503460f94b5a212/html5/thumbnails/37.jpg)
A COLTRIMS combined with a low energy pulsed electron beam has been constructed and tested.
The electron impact ionization and dissociation process of CH4 has been studied.
By measuring the momentum of the recoil ions, the fragmentation mechanism for the double charged methane ion has been studied.
Summery & Outlook
Studying of the interaction between the low energy electron
and molecule (N2, H2 and CxHy).
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