ùeyma TÜLÜCE DEMİRAY -...

ÖZGEÇMİŞ

1. Adı Soyadı : Şeyma TÜLÜCE DEMİRAY

2. Doğum Tarihi

: 30/03/1985

3. Ünvanı : Doç. Dr.

4. İletişim Bilgileri : Osmaniye Korkut Ata Üniversitesi,

Karacaoğlan Yerleşkesi,

Fen Edebiyat Fakültesi,

Matematik Bölümü, Osmaniye

E-posta : [email protected]

Telefon : 03288271000/3080

5. Öğrenim Durumu :

Derece Alan Üniversite Yıl

Lisans Matematik Gaziosmanpaşa Üniversitesi 2008

Yüksek Lisans Uygulamalı Matematik Selçuk Üniversitesi 2010

Doktora Uygulamalı Matematik Fırat Üniversitesi 2014

Yüksek Lisans Tezi: Bir Spektral Problemin Özdeğerlerinin Sayısal Analizi

Doktora Tezi: Lineer ve Lineer Olmayan Kesirli Mertebeden Diferensiyel Denklemlerin Çözüm

Yöntemleri

ÜDS(İngilizce): 71.25

6. Akademik Ünvanlar

Araştırma Görevlisi Matematik Bölümü Fırat Üniversitesi 2010-2018

Doç. Dr. Matematik Bölümü Osmaniye Korkut Ata Üniversitesi 2018-

7. Yayın Listesi

7.1. Uluslararası SCI Kapsamındaki Makaleler

7.1.1. Seyma Tuluce Demiray and Hasan Bulut, Soliton solutions of some nonlinear

evolution problems by GKM, Neural Comput & Applic, DOI 10.1007/s00521-017-2999-3,1-

8, 2017. (SCI)

7.1.2. Seyma Tuluce Demiray and Hasan Bulut, New exact solutions for generalized

Gardner equation, Kuwait J. Sci., 44(1), 1-8, 2017. (SCI)

mailto:[email protected]

7.1.3. Seyma Tuluce Demiray and Hasan Bulut, New soliton solutions of Davey–Stewartson

equation with power-law nonlinearity, Opt Quant Electron, 49:117, 1-8, 2017. (SCI)

7.1.4. Seyma Tuluce Demiray and Hasan Bulut, Dark soliton solutions of Klein-Gordon-

Zakharov equation in (1+2) dimensions, AIP Conference Proceedings, 1798, 020032-(1-7),

2017. (SCI)

7.1.5. Yusuf Pandir, Seyma Tuluce Demiray, Hasan Bulut, A New Approach for some

NLDEs with variable coefficients, Optik-International Journal for Light and Electron Optics,

127, 11183-11190, 2016. (SCI)

7.1.6. Seyma Tuluce Demiray, Hasan Bulut, Dark soliton solutions of (N+1)-dimensional

nonlinear evolution equations, AIP Conference Proceedings, 1738, 290006-(1-5), 2016. (SCI)

7.1.7. Seyma Tuluce Demiray, Yusuf Pandir, Hasan Bulut, All Exact Travelling Wave

Solutions of Hirota Equation and Hirota-Maccari System, Optik, 127, 1848-1859, 2016. (SCI)

7.1.8. Seyma Tuluce Demiray, Hasan Bulut, Generalized Kudryashov method for nonlinear

fractional double sinh-Poisson equation, J. Nonlinear Sci. Appl., 9, 1349-1355, 2016. (SCI-E)

7.1.9. Seyma Tuluce Demiray and Hasan Bulut, New Exact Solutions of the New

Hamiltonian Amplitude Equation and Fokas Lenells Equation, Entropy, 17, 6025-6043, 2015.

(SCI-E)

7.1.10. Seyma Tuluce Demiray, Yusuf Pandir and Hasan Bulut, The Analysis of The Exact

Solutions of The Space Fractional Coupled KD Equations, AIP Conference Proceedings,

1648, 370013-(1-5), 2015. (SCI)

7.1.11. Seyma Tuluce Demiray, Hasan Bulut and Fethi Bin Muhammad Belgacem, Sumudu

Transform Method for Analytical Solutions of Fractional Type Ordinary Differential

Equation, Mathematical Problems in Engineering, 2015, Article ID 131690, 6 pages, 2015.

(SCI-E)

7.1.12. Seyma Tuluce Demiray and Hasan Bulut, Some Exact Solutions of Generalized

Zakharov System, Waves in Random and Complex Media, 25(1), 75-90, 2015. (SCI)

7.1.13. Seyma Tuluce Demiray, Yusuf Pandir and Hasan Bulut, New Solitary Wave

Solutions of Maccari System, Ocean Engineering, 103, 153-159, 2015. (SCI)

7.1.14. Seyma Tuluce Demiray, Yusuf Pandir and Hasan Bulut, New Soliton Solutions for

Sasa-Satsuma Equation, Waves in Random and Complex Media, 25(3) , 417-428, 2015. (SCI)

7.1.15. Abdon Atangana, Seyma Tuluce Demiray and Hasan Bulut, Modelling the Nonlinear

Wave Motion within the Scope of the Fractional Calculus, Abstract and Applied Analysis,

2014, 1-7 pages, 2014. (SCI)

7.1.16. Seyma Tuluce Demiray, Yusuf Pandir and Hasan Bulut, Generalized Kudryashov

method for Time-Fractional Differential Equations, Abstract and Applied Analysis, 2014 , 13

pages, Article ID 901540, 2014. (SCI)

7.1.17. Hasan Bulut, Yusuf Pandir and Seyma Tuluce Demiray, Exact Solution of Nonlinear

Schrödinger's Equation with Dual Power-Law Nonlinearity by Extended Trial Equation

Method, Waves in Random and Complex Media, 24(4) , 439-451, 2014. (SCI)

7.1.18. Seyma Tuluce Demiray, Yusuf Pandir and Hasan Bulut, The investigation of exact

solutions of nonlinear time-fractional Klein-Gordon equation by using generalized

Kudryashov method, AIP Conference Proceedings, 1637, 283-289 (2014). (SCI)

7.1.19. Hasan Bulut, H Mehmet Baskonus and Seyma Tuluce, The Solutions of Partial

Differential Equations with Variable Coefficient by Sumudu Transform Method, AIP

Conference Proceedings, 1493, 91-95, 2012. (SCI)

7.2. Uluslararası SCI Dışındaki Makaleler

7.2.1. Seyma Tuluce Demiray, Hasan Bulut, Analytical Solutions of Phi-four equations, An

International Journal of Optimization and Control: Theories & Applications, 7(3), 275-280,

2017.

7.2.2. Seyma Tuluce Demiray, Hasan Bulut, New soliton solutions of the system of

equations for the ion sound and Langmuir waves, An International Journal of Optimization

and Control: Theories & Applications, 7(1), 42-49, 2017.

7.2.3. Seyma Tuluce Demiray, Hasan Bulut, New Exact Solutions of the System of

Equations for the Ion Sound and Langmuir Waves by ETEM, Mathematical and

Computational Applications, 21(11), 1-9, 2016.

7.2.4. Seyma Tuluce Demiray, Hasan Bulut and Gonca Onargan, An Application of

Generalized Tanh Function Method for the Sixth-Order Boussinesq (sB) Equation and (1+1)

Dimensional Dispersive Long Wave Equation, Applied Mathematical Sciences, 9(16), 773-

790, 2015.

7.2.5. Seyma Tuluce Demiray, H. Mehmet Baskonus and Hasan Bulut, Application of The

HPM for Nonlinear (3+1)-Dimensional Breaking Soliton Equation, Mathematics In

Engineering, Science And Aerospace (MESA), 5(1), 127-133, 2014.

7.2.6. Hasan Bulut, Yusuf Pandir and Seyma Tuluce Demiray, Exact Solutions of Time-

Fractional KdV Equations by Using Generalized Kudryashov Method, International Journal

of Modeling and Optimization, 4(4), 315-320, 2014.

7.2.7. H. Bulut, S. Tuluce Demiray, M. Kayhan, The Approximate Solutions Of Time-

Fractional Diffusion Equation By Using Crank Nicholson Method, Acta Universitatis

Apulensis, 40, 103-112, 2014.

7.2.8. Hasan Bulut, H. Mehmet Baskonus and Seyma Tuluce, Homotopy Perturbation

Sumudu Transform Method For Heat Equations, Mathematics In Engineering, Science and

Aerospace (MESA), 4(1), 49-60, 2013.

7.2.9. Hasan Bulut, Haci Mehmet Baskonus and Seyma Tuluce, The solutions of

homogenous and nonhomogeneous linear fractional differential equations by variational

iteration method, Acta Universitatis Apulensis, 36, 235-243, 2013.

7.2.10. Hasan Bulut, H. Mehmet Baskonus and Seyma Tuluce, Homotopy perturbation

Sumudu transform Method For one-two-three-dimensional initial value problems, e-Journal

of New World Sciences Academy, NWSA-Physical Sciences, 3A0051, 7(2), 55-65, 2012.

7.2.11. Hasan Bulut, H. Mehmet Baskonus, Seyma Tuluce, The solution of wave equations

by Sumudu transform method, Journal of Advanced Research in Applied Mathematics,

Online ISSN: 1942-9649, 4(3), 66-72, 2012.

7.2.12. Hasan Bulut, H. Mehmet Baskonus and Seyma Tuluce, Homotopy perturbation

sumudu transform method for one and two dimensional homogeneous heat equations,

International Journal of Basic & Applied Sciences IJBAS-IJENS, 12(01), 6-16, 2012.

7.2.13. Hasan Bulut, H. Mehmet Baskonus, Seyma Tuluce and Tolga Akturk, A Comparison

between HPM and ADM for The Nonlinear Benjamin-Bona-Mahony Equation, International

Journal of Basic & Applied Sciences IJBAS-IJENS, 11(03), 146–157, 2011.

7.3. Uluslararası Sempozyumlardaki Bildiriler

7.3.1. Seyma Tuluce Demiray, Hasan Bulut and Ercan Celik, Soliton Solutions of Wu-Zhang

System by Generalized Kudryashov Method, 7th International Eurasian Conference on

Mathematical Sciences and Applications (IECMSA-2018), August 28-31, 2018, Kyiv, Ukraine.

7.3.2. Seyma Tuluce Demiray and Hasan Bulut, Hyperbolic Function Solutions for Positive

Gardner-KP Equation, International Conference on Applied Mathematics in Engineering

(ICAME’18), June 27-29, 2018 - Balikesir, Turkey.

7.3.3. Seyma Tuluce Demiray, A New Method for (4+1) Dimensional Fokas Equation, 3rd

International Conference on Computational Mathematics and Engineering Sciences-

(CMES2018), 04-06 May 2018, Girne, CYPRUS.

7.3.4. Seyma Tuluce Demiray and Hasan Bulut, Investigation of Dark and Bright Soliton

Solutions of Some Nonlinear Evolution Equations, 3rd International Conference on

Computational Mathematics and Engineering Sciences-(CMES2018), 04-06 May 2018, Girne,

CYPRUS.

7.3.5. Seyma Tuluce Demiray and Hasan Bulut, On the Travelling Wave Solutions of

Ostrovsky Equation, 3rd International Conference on Computational Mathematics and

Engineering Sciences-(CMES2018), 04-06 May 2018, Girne, CYPRUS.

7.3.6. Seyma Tuluce Demiray and Hasan Bulut, A Novel Method for Wu-Zhang System,

Ukrainian Conference on Applied Mathematics, Ivan Franko National University of Lviv,

Ukraine, September 28-30, 2017.

7.3.7. Seyma Tuluce Demiray and Hasan Bulut, On the Exact Solutions of Drinfeld-Sokolov

System, Ukrainian Conference on Applied Mathematics, Ivan Franko National University of

Lviv, Ukraine, September 28-30, 2017.

7.3.8. Seyma Tuluce Demiray and Hasan Bulut, A New Approach for Nizhnik-Novikov-

Veselov System, 2nd International Conference on Computational Mathematics and Engineering

Sciences-(CMES2017), 20-22 May 2017, İstanbul, TURKEY.

7.3.9. Seyma Tuluce Demiray and Hasan Bulut, Analytical Solutions of Phi-Four Equation,

2nd International Conference on Computational Mathematics and Engineering Sciences-

(CMES2017), 20-22 May 2017, İstanbul, TURKEY.

7.3.10. Seyma Tuluce Demiray and Hasan Bulut, Dark Soliton Solutions of Klein-Gordon-

Zakharov Equation in (1+2) Dimensions, (ICNPAA 2016) World Congress: 11th International

Conference On Mathematical Problems In Engineering, Aerospace And Sciences, La

Rochelle/France, 5-8 July 2016.

7.3.11. Seyma Tuluce Demiray and Hasan Bulut, New Soliton Solutions of Davey-Stewartson

Equation with Power-Law Nonlinearity, International Conference on Mathematics and

Mathematics Education (ICMME-2016), Elazig/Turkey, 12-14 May 2016.

7.3.12. Seyma Tuluce Demiray and Hasan Bulut, New Exact Solutions of the Coupled sine-

Gordon Equations, 1st International Symposium on Computational Mathematics and

Engineering Sciences (CMES 2016), Errachidia/Morocco, 03-06 March 2016.

7.3.13. Seyma Tuluce Demiray and Hasan Bulut, Dark Soliton Solutions of Coupled Higgs

Equation and Nizhnik-Novikov-Veselov System, 1st International Symposium on

Computational Mathematics and Engineering Sciences (CMES 2016), Errachidia/Morocco, 03-

06 March 2016.

7.3.14. Seyma Tuluce Demiray and Hasan Bulut, Dark Soliton Solutions of (N+1)-

Dimensional Nonlinear Evolution Equations, 13th International Conference of Numerical

Analysis and Applied Mathematics 2015 (ICNAAM 2015), Rhodes/Greece, 23-29 September

2015.

7.3.15. Seyma Tuluce Demiray, Yusuf Pandir and Hasan Bulut, The Analysis of The Exact

Solutions of The Space Fractional Coupled KD Equations, 12th International Conference of

Numerical Analysis and Applied Mathematics 2014 (ICNAAM 2014), Rhodes/Greece, 22-28

September 2014.

7.3.16. Hasan Bulut, Yusuf Pandir and Seyma Tuluce Demiray, Exact Solutions of Time-

Fractional KdV Equations by Using Generalized Kudryashov Method, The 3rd International

Conference on Pure and Applied Mathematics (ICPAM 2014), Madrid/Spain, 18-19 July 2014.

7.3.17. S. Tuluce Demiray, Yusuf Pandir and Hasan Bulut, The Investigation of Exact

Solutions of Nonlinear Time-Fractional Klein-Gordon Equation by Using Generalized

Kudryashov Method, (ICNPAA 2014) World Congress: 10th International Conference On

Mathematical Problems In Engineering, Aerospace And Sciences, Narvik/Norway, 15-18 July

2014.

7.3.18. S. Tuluce Demiray, Gonca Onargan, H. Bulut, An Application of Generalized Tanh

Function Method for The Sixth-Order Boussinesq Equation and (1+1)-Dimensional Dispersive

Long Wave Equation, V. Congress of the Turkic World Mathematicians (TWMS), Kyrgyzstan,

5-7 June 2014.

7.3.19. Hasan Bulut, Yusuf Pandir, Seyma Tuluce, Exact Solutions of the Zakharov-

Kuznetsov and Zakharov-Kuznetsov-BBM equations by using extended trial equation method,

International Conference on Applied Analysis and Mathematical Modelling (ICAAMM 2013),

Istanbul/Turkey, 2-5 June 2013.

7.3.20. Hasan Bulut, Seyma Tuluce and H. Mehmet Baskonus, The implemented of variational

iteration method to nonlinear fractional differential equation systems, 4th International

Conference On Mathematical and Computational Applications (ICMCA 2013), Manisa/Turkey,

11-13 June 2013.

7.3.21. Hasan Bulut, Seyma Tuluce and H. Mehmet Baskonus, The Solutions of Initial Value

Problems by Sumudu Transform Method, International Conference on Mathematical Analysis,

Differential Equations and Their Applications, Mersin/Turkey, 04-09 September 2012.

7.3.22. Hasan Bulut, H. Mehmet Baskonus and Seyma Tuluce, The Solutions of Partial

Differential Equations with Variable Coefficient by Sumudu Transform Method, (ICNPAA

2012) World Congress: 9th International Conference On Mathematical Problems In

Engineering, Aerospace And Sciences, Vienna/Austria, 10-14 July 2012.

7.3.23. Hasan Bulut, H. Mehmet Baskonus and Seyma Tuluce, Application of the Homotopy

Perturbation Method for nonlinear (3+1)-Dimensional Breaking Soliton Equation, IV. Congress

of the Turkic World Mathematical Society (TWMS), Baku/Azerbaijan, 1-3 July 2011.

7.4. Ulusal Sempozyumlardaki Bildiriler

7.4.1. Hasan Bulut, Seyma Tuluce ve Miraç Kayhan, Sonlu Farklar Metodunu Kullanarak

Zaman Kesirli Difüzyon Denklemlerinin Çözümü, 12. Ulusal Matematik Sempozyumu, 23-25

Mayıs, Hacettepe Üniversitesi, Ankara, TÜRKİYE, 2013.

7.4.2. Hasan Bulut, H. Mehmet Baskonus and Seyma Tuluce, The solutions of homogenous

and nonhomogeneous linear fractional differential equations by variational iteration method,

11. Ulusal Matematik Sempozyumu, 19-21 Eylül, Samsun, TÜRKİYE, 2012.

7.5. Atıflar

7.1.1 NUMARALI MAKALEYE YAPILAN ATIFLAR

1- K. Hosseini, A. Bekir, M. Kaplan, Ö. Güner, On a new technique for solving the nonlinear conformable time-

fractional differential equations, Optical and Quantum Electronics, 49:343, https://doi.org/10.1007/s11082-017-

1178-1, 2017.


1- K. Hosseini, Z. Ayati, R. Ensari, New exact traveling wave solutions of the Tzitzéica type equations using a novel

exponential rational function method, Optik-International Journal for Light and Electron Optics, 148, 85-89, 2017.


1- Melike Kaplan, Applications of two reliable methods for solving a nonlinear conformable time-fractional equation,

Optical and Quantum Electronics, 49:312, https://doi.org/10.1007/s11082-017-1151-z, 2017.


1- M. M. El-Borai,H. M. El-Owaidy, Hamdy M. Ahmed, Ahmed H. Arnous, Seithuti Moshokoa, Anjan Biswas,

Milivoj Belic, Topological and singular soliton solution to Kundu–Eckhaus equation with extended Kudryashov's

method, Optik-International Journal for Light and Electron Optics, 128, 57-62, 2017.

2- Ting-Ting Jia, Yu-Zhen Chai, Hui-Qin Hao, Multi-soliton solutions and Breathers for the generalized coupled

nonlinear Hirota equations via the Hirota method, Superlattices and Microstructures, 105,172-182, 2017.

3- Komal Singla, R. K. Gupta, Conservation laws for certain time fractional nonlinear systems of partial differential

equations, Communications in Nonlinear Science and Numerical Simulation, 53, 10-21, 2017.

4- M. Kaplan, P. Mayeli, K. Hosseini, Exact traveling wave solutions of the Wu–Zhang system describing (1 + 1)-

dimensional dispersive long wave, Optical and Quantum Electronics, 49:404, https://doi.org/10.1007/s11082-017-

1231-0, 2017.

5- Necdet Bildik, Optimal Perturbation Iteration Method for Solving Telegraph Equations, International Journal of

Applied Physics and Mathematics, 7(3), 165-172, 2017.

6- M. M. El-Borai, H. M. El-Owaidy, Hamdy M. Ahmed and A. H. Arnous, Soliton solutions of Hirota equation and

Hirota-Maccari system, New Trends in Mathematical Sciences (NTMSCI), 4(3), 231-238, 2016.

7- Khaled A. Gepreel, Taher A. Nofal and Nehal S. Al-Sayali, Direct method for solving nonlinear strain wave

equation in microstructure solids, International Journal of Physical Sciences, 11(10), 121-131, 2016.





2- M. T. Gencoglu, H. M. Baskonus, H. Bulut, Numerical simulations to the nonlinear model of interpersonal

relationships with time fractional derivative, AIP Conference Proceedings 1798, 020103,

https://doi.org/10.1063/1.4972695, 2017.

https://link.springer.com/journal/11082

https://doi.org/10.1007/s11082-017-1178-1

https://doi.org/10.1007/s11082-017-1178-1


https://doi.org/10.1007/s11082-017-1151-z

http://www.sciencedirect.com/science/journal/07496036



https://doi.org/10.1007/s11082-017-1231-0

https://doi.org/10.1007/s11082-017-1231-0

https://doi.org/10.1063/1.4972695

3- K. Hosseini, R. Ansari, New exact solutions of nonlinear conformable time-fractional Boussinesq equations using

the modified Kudryashov method, Waves in Random and Complex Media, 27(4), 628-636, 2017.

4- K. Hosseini, A. Bekir, R. Ansari, Exact solutions of nonlinear conformable time-fractional Boussinesq equations

using the exp(- ϕ( ε))-expansion method, Optical and Quantum Electronics, 49:4,1-11,2017.

5- Haci Mehmet Baskonus and Hasan Bulut, New complex exact travelling wave solutions for the generalized-

Zakharov equation with complex structures, An International Journal of Optimization and Control: Theories &

Applications(IJOCTA), 6(2), 141-150, 2016.







Applications(IJOCTA), 6(2), 141-150, 2016.




2- Komal Singla, R. K. Gupta, Generalized Lie symmetry approach for fractional order systems of differential

equations. III, Journal of Mathematical Physics 58, 061501 (2017); https://doi.org/10.1063/1.4984307 .

3- K. Hosseini, A. Bekir, R. Ansari, Exact solutions of nonlinear conformable time-fractional Boussinesq equations

using the exp(- ϕ( ε))-expansion method, Optical and Quantum Electronics, 49:4,1-11,2017.

4- Kamruzzaman Khan and M. Ali Akbar, Solving unsteady Korteweg–de Vries equation and its two alternatives,

Mathematical Methods in the Applied Sciences, DOI: 10.1002/mma.3727, 1-9, 2016.


1- Fethi Bin Muhammad Belgacem, Eman H. Al-Shemas and Rathinavel Silambarasan, Sumudu Computation of the

Transient Magnetic Field in a Lossy Medium, Appl. Math. Inf. Sci. 11, No. 1, 209-217, 2017.

2- Fethi Bin Muhammad Belgacem, Rathinavel Silambarasan, A distinctive Sumudu treatment of trigonometric

functions, Journal of Computational and Applied Mathematics, 312, 74-81, 2017.

3- M. T. Gencoglu, H. M. Baskonus, H. Bulut, Numerical simulations to the nonlinear model of interpersonal

relationships with time fractional derivative, AIP Conference Proceedings 1798, 020103,

https://doi.org/10.1063/1.4972695, 2017.

4- Fethi Bin Muhammad Belgacem, Rathinavel Silambarasan, Hammouch Zakia, Toufik Mekkaoui, New and

Extended Applications of the Natural and Sumudu Transforms: Fractional Diffusion and Stokes Fluid Flow

Realms, Advances in Real and Complex Analysis with Applications, 107-120, 2017.

5- Hassan Eltayeb and Eltayeb Abdeldaim, Comparison of Sumudu and Laplace decomposition method for solving

fractional Lane-Emden type differential equations, Journal of Progressive Research in Mathematics, 11(1), 1537-

1550, 2017.

6- Jin Zhang, Ming Cai, Bochao Chen, and Hui Wei, Homotopy Series Solutions to Time-Space Fractional Coupled

Systems, Discrete Dynamics in Nature and Society, Volume 2017, Article ID 3540364, 19 pages, 2017.

7- Hassan Eltayeb and Eltayeb Abdeldaim, Sumudu Decomposition Method for Solving Fractional Delay Differential

Equations , Research in Applied Mathematics, Vol. 1 (2017), Article ID 101268, 13 pages, 2017.

8- Zeynep Fidan Koçak and Gülnur Yel, Trigonometric Function Solutions of Fractional Drinfeld's Sokolov -Wilson

System, ITM Web of Conferences 13, 01006 (2017),1-4, CMES2017.

9- Haci Mehmet Baskonus, New complex and hyperbolic function solutions to the generalized double combined Sinh-

Cosh-Gordon equation, AIP Conference Proceedings, 1798, 020018 (2017); https://doi.org/10.1063/1.4972610 .

http://scholar.google.com.tr/scholar_url?url=http%3A%2F%2Fwww.tandfonline.com%2Fdoi%2Fabs%2F10.1080%2F17455030.2017.1296983&hl=tr&sa=T&ct=res&cd=2&ei=C1FCWryaD5KwmgHAz4WoAg&scisig=AAGBfm2SrtVHYzMYxXi5QRyHr4d6AZ7BWg&nossl=1&ws=1536x716





http://scholar.google.com.tr/scholar_url?url=http%3A%2F%2Faip.scitation.org%2Fdoi%2Fabs%2F10.1063%2F1.4984307&hl=tr&sa=T&ct=res&cd=5&ei=fNZEWuicF7HHjgShj464Aw&scisig=AAGBfm3NTDlEs1obdnGmssTvN1hMZ5T_Rg&nossl=1&ws=1536x716

http://scholar.google.com.tr/scholar_url?url=http%3A%2F%2Faip.scitation.org%2Fdoi%2Fabs%2F10.1063%2F1.4984307&hl=tr&sa=T&ct=res&cd=5&ei=fNZEWuicF7HHjgShj464Aw&scisig=AAGBfm3NTDlEs1obdnGmssTvN1hMZ5T_Rg&nossl=1&ws=1536x716

https://doi.org/10.1063/1.4984307



https://doi.org/10.1063/1.4972695

https://link.springer.com/book/10.1007/978-981-10-4337-6

https://doi.org/10.1063/1.4972610

10- Hasan Bulut, Application of the modified exponential function method to the Cahn-Allen equation, AIP Conference

Proceedings 1798, 020033 (2017); https://doi.org/10.1063/1.4972625.

11- K. V. Zhukovsky, Operational method of solution of linear non‑integer ordinary and partial differential equations,

SpringerPlus, 5(119),1-25, 2016.

12- Fethi Bin Muhammad Belgacem, Eman H. Al-Shemas and Rathinavel Silambarasan, Sumudu computation of the

transient magnetic field in a lossy medium, Applied Mathematics & Information Sciences(AMIS), 10(6), 1-9, 2016.

13- Sunday O. Edeki, Olabisi O. Ugbebor and Enahoro A. Owoloko, Analytical Solutions of the Black–Scholes Pricing

Model for European Option Valuation via a Projected Differential Transformation Method, Entropy, 17, 7510-

7521, doi:10.3390/e17117510, 2015.

14- I. Siddique, Abdullah Y. Al Hossain, M. B. Riaz, Analytical Solutions for Unsteady Flow Problems of Maxwell

Fluid in a Porous Mediam, Sci. Int. (Lahore), 27(2), 881-887, 2015.

15- S. K. Q. Al-Omari, F. B. M. Belgacem, Quaternion space of Boehmians connected with the Sumudu transform,

Nonlinear Studies, Vol. 22, No. 4, pp. 1-12, 2015.

16- Haci Mehmet Baskonus, Fethi Bin Muhammad Belgacem, Hasan Bulut, Solutions of Nonlinear Fractional

Differential Equations Systems through an Implementation of the Variational Iteration Method, Fractional

Dynamics, De Gruyter, 333-342, 2015.

17- Fethi Bin Muhammad Belgacem, Vartika Gulati, Pranay Goswami,and Abdullah Aljoujiee, A Treatment of

Generalized Fractional Differential Equations: Sumudu Transform Series Expansion Solutions, and Applications,

Fractional Dynamics, De Gruyter,369-379, 2015.


1- Ozkan Guner, Ahmet Bekir, A novel method for nonlinear fractional differential equations using symbolic

computation, Waves in Random and Complex Media, 27:1, 163-170, 2017.

2- Shu Yang, Exact Solutions to Zakharov-Kuznetsov Equation with Variable Coefficients by Trial Equation Method,

Zeitschrift für Naturforschung A, 73(1), 10-31, 2017.

3- Ozkan Guner, Exp-Function Method and Fractional Complex Transform for Space-Time Fractional KP-BBM

Equation, Communications in Theoretical Physics, 68(2), 2017.

4- K. Hosseini, Z. Ayati, R. Ensari, New exact solutions of the Tzitzéica-type equations in non-linear optics using the

exp function method, Journal of Modern Optics, https://doi.org/10.1080/09500340.2017.1407002 , 1-5, 2017.

5- Sanoe Koonprasert, Sekson Sirisubtawee, and Sivaporn Ampun, More Explicit Solitary Solutions of the Space-

Time Fractional Fifth Order Nonlinear Sawada-Kotera Equation via the Improved Generalized Riccati Equation

Mapping Method, Global Journal of Pure and Applied Mathematics, 13(6), 2629-2658, 2017.

6- Sivaporn Ampun, Surattana Sungnul, and Sanoe Koonprasert, New exact solutions for the time fractional clannish

random walker's parabolic equation by the improved tan(ϕ(ε)/2)-expansion method, Proceedings of AMM 2017, 1-

13, 2017.



1231-0, 2017.

8- Ozkan Guner, Soliton and periodic solutions for time-dependent coefficient non-linear equation, Waves in Random

and Complex Media, 26(1), 90-99, 2016.

9- Qin Zhou, M. Ekici, A. Sonmezoglu, M. Mirzazadeh, Optical solitons with Biswas-Milovic equation by extended

G’/G-expansion method, Optik, 127, 6277-6290,2016.

10- Ozkan Guner, Ahmet Bekir, A novel method for nonlinear fractional differential equations using symbolic

computation, Waves in Random and Complex Media, http://dx.doi.org/10.1080/17455030.2016.1213462, 1-8,

2016.

11- Esin Aksoy, Adem C. Cevikel, Ahmet Bekir, Soliton solutions of (2+1)-dimensional time-fractional Zoomeron

equation, Optik, 127, 6933–6942, 2016.

https://doi.org/10.1063/1.4972625

http://iopscience.iop.org/journal/0253-6102

https://doi.org/10.1080/09500340.2017.1407002


https://doi.org/10.1007/s11082-017-1231-0

https://doi.org/10.1007/s11082-017-1231-0


equation in microstructure solids, International Journal of Physical Sciences, 11(10), 121-131,2016.


1- Melike Kaplan, Applications of two reliable methods for solving a nonlinear conformable time-fractional equation,

Optical and Quantum Electronics, 49:312, https://doi.org/10.1007/s11082-017-1151-z, 2017.

2- Yusuf Pandir, A New Type of Generalized F-Expansion Method and its Application to Sine-Gordon Equation,

Celal Bayar University Journal of Science, Volume 13, Issue 3, 647-650, 2017.

3- Cesar A. Gomez, Traveling Wave Solutions for a Forced Macari System and Variable Coefficients, Advanced

Studies in Theoretical Physics, Vol. 11, no. 12, 577 – 583, 2017.

4- Yücel Çenesiz, Orkun Tasbozan and Ali Kurt, Functional Variable Method for conformable fractional modified

KdV-ZK equation and Maccari system, Tbilisi Mathematical Journal 10(1), 117-125, 2017.



1231-0, 2017.

6- M. T. Darvishi, M. Najafi, A. M. Wazwaz, Soliton solutions for Boussinesq-like equations with spatio-temporal

dispersion, Ocean Engineering, 130, 228-240, 2017.

7- Gai-Hua Wang, Li-Hong Wang, Ji-Guang Rao and Jing-Song He, New Patterns of the Two-Dimensional Rogue

Waves: (2+1)-Dimensional Maccari System, Communications in Theoretical Physics, 67(6), 2017.

8- Ayyaz Ali, Muhammad Asad Iqbal, Qazi Mahmood UL‑Hassan, Jamshad Ahmad and Syed Tauseef Mohyud‑Din,

An efficient technique for higher order fractional differential equation, SpringerPlus, 5(281),1-14, 2016.



10- Nadia Cheemaa, Muhammad Younis, New and more exact traveling wave solutions to integrable (2+1)-

dimensional Maccari system, Nonlinear Dynamics, 83, 1395–1401, 2016.




1- M. Kaplan, P. Mayeli, K. Hosseini, Exact traveling wave solutions of the Wu–Zhang system describing

(1 + 1)-dimensional dispersive long wave, Optical and Quantum Electronics, 49:404,

https://doi.org/10.1007/s11082-017-1231-0, 2017.

2- Ozkan Guner, Soliton and periodic solutions for time-dependent coefficient non-linear equation, Waves in

Random and Complex Media, 26(1), 90-99, 2016.

3- Kamruzzaman Khan and M. Ali Akbar, Solving unsteady Korteweg–de Vries equation and its two

alternatives, Mathematical Methods in the Applied Sciences, DOI: 10.1002/mma.3727, 1-9, 2016.




1- Saima Arshed, Numerical study of time-fractional hyperbolic partial differential equations, J. Math.

Computer Sci., 17, 53–65, 2017.


1- A. Sonmezoglu, M. Ekici, M. Moradi, M. Mirzazadeh, Q. Zhou, Exact solitary wave solutions to the new (3 + 1)-

dimensional generalized Kadomtsev–Petviashvili equation, Optik- International Journal for Light and Electron

Optics, 128, 77-82, 2017.


https://doi.org/10.1007/s11082-017-1151-z

http://scholar.google.com.tr/scholar_url?url=http%3A%2F%2Fwww.m-hikari.com%2Fastp%2Fastp2017%2Fastp9-12-2017%2Fp%2FgomezASTP9-12-2017.pdf&hl=tr&sa=T&oi=ggp&ct=res&cd=11&ei=DflEWuPzL8-CjgShu4mQCg&scisig=AAGBfm0pIE6ycqSxE70ZFnCUb6Jijy2yvA&nossl=1&ws=1536x739

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https://doi.org/10.1007/s11082-017-1231-0

https://doi.org/10.1007/s11082-017-1231-0

http://iopscience.iop.org/journal/0253-6102


https://doi.org/10.1007/s11082-017-1231-0



2- S. Sahoo, S. Saha Ray, A new method for exact solutions of variant types of time-fractional Korteweg-de Vries

equations in shallow water waves, Mathematical Methods in the Applied Sciences, 40(1), 106-114, 2017.



4- H. Çerdik Yaslan, New analytic solutions of the space–time fractional Cahn–Hilliard equations, Optik -

International Journal for Light and Electron Optics,130, 990-995, 2017.

5- İ. B. Giresunlu, Y. Sağlam Özkan and E. Yaşar, On the exact solutions, lie symmetry analysis, and conservation

laws of Schamel–Korteweg–de Vries equation, Mathematical Methods in the Applied Sciences, 40(11), 3927-3936,

2017.

6- K. Hosseini, E. Yazdani Bejarbaneh, A. Bekir, M. Kaplan, New exact solutions of some nonlinear evolution

equations of pseudoparabolic type, Optical and Quantum Electronics, 49:241, https://doi.org/10.1007/s11082-017-

1070-z, 2017.

7- S. Saha Ray, S. Singh, New exact solutions for the Wick-type stochastic Zakharov–Kuznetsov equation for

modelling waves on shallow water surfaces, Random Operators and Stochastic Equations, 25(2), 5-11, 2017.

8- M. M. A. Khater, D. Kumar, New exact solutions for the time fractional coupled Boussinesq–Burger equation and

approximate long water wave equation in shallow water, Journal of Ocean Engineering and Science, 2(3), 223-228,

2017.

9- M. M. A. Khater, D. Kumar, Implementation of three reliable methods for finding the exact solutions of (2 + 1)

dimensional generalized fractional evolution equations, Optical and Quantum Electronics,49: 427,

https://doi.org/10.1007/s11082-017-1249-3, 2017.

10- Sanoe Koonprasert, Sekson Sirisubtawee, and Sivaporn Ampun, More Explicit Solitary Solutions of the Space-

Time Fractional Fifth Order Nonlinear Sawada-Kotera Equation via the Improved Generalized Riccati Equation

Mapping Method, Global Journal of Pure and Applied Mathematics, 13(6), 2629-2658, 2017.

11- M. Ekici, Q. Zhou, A. Sonmezoglu, M. Mirzazadeh, Exact solitons of the coupled sine-Gordon equation in

nonlinear system, Optik - International Journal for Light and Electron Optics, 136, 435-444, 2017.

12- H. Triki, T. Ak, M. Ekici, A. Sonmezoglu, M. Mirzazadeh, A. H. Kara, T. Aydemir, Some new exact wave

solutions and conservation laws of potential Korteweg–de Vries equation, Nonlinear Dynamics, 89(1), 501-508,

https://doi.org/10.1007/s11071-017-3467-4, 2017.

13- Saima Arshed, Numerical study of time-fractional hyperbolic partial differential equations, J. Math. Computer Sci.,

17, 53–65, 2017.

14- M. Kaplan, A. Bekir, Construction of exact solutions to the space–time fractional differential equations via new

approach, Optik - International Journal for Light and Electron Optics, 132, 1-8, 2017.

15- Shu Yang, Exact Solutions to Zakharov-Kuznetsov Equation with Variable Coefficients by Trial Equation Method,

Zeitschrift für Naturforschung A, 73(1), 10-31, 2017.

16- Necdet Bildik, Sinan Deniz, Solving the burgers' and regularized long wave equations using the new perturbation

iteration technique, Numerical Methods for Partial Differential Equations, 00:1-13,

https://doi.org/10.1002/num.22214, 2017.

17- Yusuf Gurefe, Yusuf Pandir, Tolga Akturk and Hasan Bulut, Elliptic function solutions for some nonlinear pdes in

mathematical physics, Journal of Applied Analysis and Computation, 7(1), 372-391, 2017.

18- K. Hosseini, A. Bekir, M. Kaplan, New exact traveling wave solutions of the Tzitzéica-type evolution equations

arising in non-linear optics, Journal of Modern Optics, 64(16), 1688-1692, 2017.



1231-0, 2017.

20- Ayyaz Ali, Muhammad Asad Iqbal, Qazi Mahmood UL‑Hassan, Jamshad Ahmad and Syed Tauseef Mohyud‑Din,

An efficient technique for higher order fractional differential equation, SpringerPlus, 5(281),1-14, 2016.






https://doi.org/10.1007/s11082-017-1070-z

https://doi.org/10.1007/s11082-017-1070-z

https://www.sciencedirect.com/science/journal/24680133


https://doi.org/10.1007/s11082-017-1249-3


https://doi.org/10.1007/s11071-017-3467-4


https://doi.org/10.1002/num.22214

https://www.researchgate.net/publication/315109434_New_exact_traveling_wave_solutions_of_the_Tzitzeica-type_evolution_equations_arising_in_non-linear_optics?ev=pubitem-pub_cit_inc

https://www.researchgate.net/publication/315109434_New_exact_traveling_wave_solutions_of_the_Tzitzeica-type_evolution_equations_arising_in_non-linear_optics?ev=pubitem-pub_cit_inc


https://doi.org/10.1007/s11082-017-1231-0

https://doi.org/10.1007/s11082-017-1231-0

21- Qin Zhou, M. Ekici, A. Sonmezoglu, J. Manafian, S. Khaleghizadeh, M. Mirzazadeh, Exact solitary wave solutions

to the generalized Fisher equation, Optik, 127,12085-12092.

22- Ozkan Guner, Esin Aksoy, Ahmet Bekir, Adem C. Cevikel, Different methods for (3+1)-dimensional space-time

fractional modified KdV-Zakharov-Kuznetsov equation, Computers and Mathematics with Applications, 71, 1259-

1269, 2016.

23- Mohammad Mirzazadeh, Mehmet Ekici, Abdullah Sonmezoglu, Mostafa Eslami, Qin Zhou, Abdul H. Kara,

Daniela Milovic, Fayequa B. Majid, Anjan Biswas, Milivoj Belic, Optical solitons with complex Ginzburg-Landau

equation, Nonlinear Dynamics, DOI 10.1007/s11071-016-2810-5, 1-38, 2016.

24- Kamruzzaman Khan, M. Ali Akbar and Ahmed H. Arnous, Exact traveling wave solutions for system of nonlinear

evolution equations, SpringerPlus, DOI 10.1186/s40064-016-2219-0, 1-11, 2016.



26- Esin Aksoy, Adem C. Cevikel, Ahmet Bekir, Soliton solutions of (2+1)-dimensional time-fractional Zoomeron

equation, Optik, 127, 6933–6942, 2016.

27- Qin Zhou, M. Ekici, A. Sonmezoglu, M. Mirzazadeh & M. Eslami, Analytical study of solitons to Biswas–Milovic

model in nonlinear optics, Journal of Modern Optics, 63(21), 2131-2137, 2016.

28- Esin Aksoy, Ozkan Guner, Ahmet Bekir, and Adem C. Cevikel, Exact solutions of the (3+1)-dimensional space-

time fractional Jimbo-Miwa equation, AIP Conference Proceedings 1738, 290014(1-5), 2016.

29- Haci Mehmet Baskonus and Hasan Bulut, New Hyperbolic Function Solutions for Some Nonlinear Partial

Differential Equation Arising in Mathematical Physics, Entropy, 17, 4255-4270, doi:10.3390/e17064255, 2015.

30- Yusuf Pandir, Abdullah Sonmezoglu, Hasan Huseyin Duzgun, and Nail Turhan, Exact solutions of nonlinear

Schrödinger’s equation by using generalized Kudryashov method, AIP Conference Proceedings, 1648, 370004-1–

370004-5, doi: 10.1063/1.4912593, 2015.

31- Haci Mehmet Baskonus and Hasan Bulut, On Some New Analytical Solutions for the (2+1)-Dimensional Burgers

Equation and the Special Type of Dodd-Bullough-Mikhailov Equation, Journal of Applied Analysis and

Computation, Volume 5, Number 4, 613-625, 2015.

32- E. M. E. Zayed, G. M. Moatimid, Abdul-Ghani Al-Nowehy, The Generalized Kudryashov Method and Its

Applications for Solving Nonlinear PDEs in Mathematical Physics, Scientific Journal of Mathematics Research,

Vol. 5 Iss. 2, PP. 19-39, 2015.

33- Hasan Bulut, Haci Mehmet Baskonus, Eren Cüvelek, On The Prototype Solutions of Symmetric Regularized Long

Wave Equation by Generalized Kudryashov Method, Mathematics Letters, 1(2), 10-16, 2015.

34- Cesar A. Gómez S., A Generalized Method for Exact Solutions to NLPDE's, Applied Mathematical Sciences, Vol.

9, no. 104, 5201 - 5205, 2015.


1- Ozkan Guner, Soliton and periodic solutions for time-dependent coefficient non-linear equation, Waves in Random

and Complex Media, 26(1), 90-99, 2016.

2- Anjan Biswas, Mohammad Mirzazadeh, Mostafa Eslami, Qin Zhou, Ali Bhrawy, Milivoj Belic, Optical solitons in

nano-fibers with spatio-temporal dispersion by trial solution method, Optik, 7250-7257, 2016.

3- Wentao Cai, Jian Li, Zhangxin Chen, Unconditional convergence and optimal error estimates of the Euler semi-

implicit scheme for a generalized nonlinear Schrödinger equation, Advances in Computational Mathematics, 42,

1311-1330, 2016.

4- Jun Chai, Bo Tian, Yu-Feng Wang, Wen-Rong Sun and Yun-Po Wang, Conservation Laws and Mixed-Type

Vector Solitons for the 3-Coupled Variable-Coefficient Nonlinear Schrödinger Equations in Inhomogeneous

Multicomponent Optical Fibre, Z. Naturforsch., 71(6)a: 525-539, 2016.



6- Mohammad Mirzazadeh, A. H. Arnous, M. F. Mahmood, Essaid Zerrad, Anjan Biswas, Soliton solutions to

resonant nonlinear Schrödinger’s equation with time-dependent coefficients by trial solution approach, Nonlinear

Dyn., 81, 277-282, 2015.

7- Qing Meng, Bin He, and Zhenyang Li, Explicit wave solutions and qualitative analysis of the (1+2)-dimensional

nonlinear Schrödinger equation with dual-power law nonlinearity, Advances in Mathematical Physics, Volume

2015, Article ID 408630, 16 pages, 2015.

8- M. Mirzazadeh, Soliton solutions of Davey-Stewartson equation by trial equation method and ansatz approach,

Nonlinear Dynamics, 82, 1775-1780, 2015.

9- M. Mirzazadeh, Q. Zhou, A. Biswas, M. Belic, Optical solitons of generalized resonant dispersive nonlinear

Schrödinger's equation with power law nonlinearity, Optoelectronics and Advanced Materials-Rapid

Communications, 9, 1100-1103, 2015.


1- Kamruzzaman Khan, M. Ali Akbar and Ahmed H. Arnous, Exact traveling wave solutions for system of nonlinear

evolution equations, SpringerPlus, DOI 10.1186/s40064-016-2219-0, 1-11, 2016.



3- Md. Shafiqul Islam, Kamruzzaman Khan and Ahmed H. Arnous, Generalized Kudryashov method for solving

some (3+1)-dimensional nonlinear evolution equations, New Trends in Mathematical Sciences, Vol. 3, No. 3, 46-

57, 2015.

4- Md. Shafiqul Islam, Kamruzzaman Khan and M. Ali Akbar, The generalized Kudryashov method to solve some

coupled nonlinear evolution equations, Asian Journal of Mathematics and Computer Research, 3(2), 104-121,

2015.


1- Md. Nur Alam, Fethi Bin Muhammad Belgacem, Exact Traveling Wave Solutions for the (1 +1)-Dimensional

Compound KdVB Equation via the Novel (G'/G)-Expansion Method, International Journal of Modern Nonlinear

Theory and Application, 5, 28-39, 2016.

2- S. O. Edeki, G. O. Akinlabi, and S. A. Adeosun, On a modified transformation method for exact and approximate

solutions of linear Schrödinger equations, AIP Conference Proceedings, 1705, 020048(1-5); doi:

10.1063/1.4940296, 2016.

3- Necdet Bildik and Sinan Deniz, The Use of Sumudu Decomposition Method for Solving Predator-Prey Systems,

Mathematical Sciences Letters, 5(3), 285-289, 2016.

4- Devendra Kumar, Jagdev Singh, Dumitru Baleanu, A hybrid computational approach for Klein-Gordon equations

on Cantor sets, Nonlinear Dynamics, DOI 10.1007/s11071-016-3057, 2016.

5- Md. Nur Alam, Fethi Bin Muhammad Belgacem, Exact Traveling Wave Solutions for the (1+1)-Dimensional



6- S. O. Edeki, G. O. Akinlabi, and S. A. Adeosun, On a modified transformation method for exact and approximate

solutions of linear Schrödinger equations, AIP Conference Proceedings, 1705, 020048:1-5, 2016.

7- Haci Mehmet Baskonus and Hasan Bulut, On Some New Analytical Solutions for the (2+1)-Dimensional Burgers

Equation and the Special Type of Dodd-Bullough-Mikhailov Equation, Journal of Applied Analysis and

Computation, Volume 5, Number 4, 613-625, 2015.

http://www.hindawi.com/15767952/



http://link.springer.com/journal/11071

8- Haci Mehmet Baskonus, Hasan Bulut, Fethi Bin Muhammad Belgacem, On Some New Exact Solutions of Special

Type of the Nonlinear Dodd–Bullough–Mikhailov Equation, Advances in Mathematics and Statistical Sciences,

76-85, 2015.

9- Fethi Bin Muhammad Belgacem, Mahmoud Leila, Maryam Al-Rashed, Sumudu applications to stochastics,

statistics, and correlation theory, International Conference Mathematical and Computational Modeling in Science

and Technology, ICMCMST’2015, August 02-07, 2015, Izmir University-Turkey.

10- Haci Mehmet Baskonus, Hasan Bulut, Yusuf Pandir, The natural transform decomposition method for linear and

nonlinear partial differential equations, Mathematics in Engineering, Science and Aerospace, 5(1), 111-126, 2014.

11- Fethi Bin Muhammad Belgacem, Hasan Bulut, Haci Mehmet Baskonus, Tolga Akturk, Mathematical analysis of

the Generalized Benjamin and Burger-Kdv Equations via the Extended Trial Equation Method, Journal of the

Association of Arab Universities for Basic and Applied Sciences, 16, 91-100, 2014.

12- Hasan Bulut, Yusuf Pandir and Haci Mehmet Baskonus, On the exact solutions of high order wave equations of

KdV type (I), AIP Conference Proceedings, 1637, 114-126, 2014.

13- Hasan Bulut, Haci Mehmet Baskonus and Fethi Bin Muhammad Belgacem, The Analytical Solution of Some

Fractional Ordinary Differential Equations by the Sumudu Transform Method, Abstract and Applied Analysis,

Volume 2013, Article ID 203875, 6 pages, 2013.


1- Ahmed H. Arnous, Mohammad Mirzazadeh, Application of the generalized Kudryashov method to the Eckhaus

equation, Nonlinear Analysis: Modelling and Control, Vol. 21, No. 5, 577-586, 2016.



3- S. Sahoo, S. Saha Ray, Solitary wave solutions for time fractional third order modified KdV equation using two

reliable techniques (G’/G)-expansion method and improved (G’/G)-expansion method, Physica A: Statistical

Mechanics and its Applications, 448, 265-282, 2016.

4- Yusuf Pandir, Abdullah Sonmezoglu, Hasan Huseyin Duzgun, and Nail Turhan, Exact solutions of nonlinear

Schrödinger’s equation by using generalized Kudryashov method, AIP Conference Proceedings, 1648, 370004-1–

370004-5, doi: 10.1063/1.4912593, 2015. (SCI)

5- A. H. Arnous, Solitary wave solutions of space-time FDEs using the generalized Kudryashov method, Acta

Universitatis Apulensis, 42, pp. 41-51, 2015.

6- A. H. Arnous, M. Mirzazadeh, M. Eslami, The Bäcklund transformation method of Riccati equation applied to

coupled Higgs field and Hamiltonian amplitude equations, Computational Methods for Differential Equations, Vol.

2, No. 4, 216-226, 2014.





2- Necdet Bildik and Sinan Deniz, The Use of Sumudu Decomposition Method for Solving Predator-Prey Systems,

Mathematical Sciences Letters, 5(3), 285-289, 2016.



4- Haci Mehmet Baskonus, Hasan Bulut and Yusuf Pandir, On the Solution of Nonlinear Time-Fractional Generalized

Burgers Equation by Homotopy Analysis Method and Modified Trial Equation Method, International Journal of

Modeling and Optimization, 4(4), 305-309, 2014.



5- Hasan Bulut, Haci Mehmet Baskonus and Yusuf Pandir, The Modified Trial Equation Method for Fractional Wave

Equation and Time Fractional Generalized Burgers Equation, Abstract and Applied Analysis, Volume 2013, Article

ID 636802, 8 pages, 2013.

6- Hasan Bulut, Haci Mehmet Baskonus and Fethi Bin Muhammad Belgacem, The Analytical Solution of Some

Fractional Ordinary Differential Equations by the Sumudu Transform Method, Abstract and Applied Analysis,

Volume 2013, Article ID 203875, 6 pages, 2013.

7- Eltayeb A. Yousif, Sara H. M. Hamed, Solution of Nonlinear Fractional Differential Equations Using the

Homotopy Perturbation Sumudu Transform Method, Applied Mathematical Sciences, Vol. 8, no. 44, 2195-2210,

2014.

8- Sara H. M. Hamed, Eltayeb A. Yousif and Arbab I. Arbab, Analytic and Approximate Solutions of the Space-Time

Fractional Schrödinger Equations by Homotopy Perturbation Sumudu Transform Method, Abstract and Applied

Analysis, Volume 2014, Article ID 863015, 13 pages, 2014.




Applications (IJOCTA), 6(2), 141-150, 2016.

2- Fethi Bin Muhammad Belgacem, Hasan Bulut, Haci Mehmet Baskonus, Variational Iteration Method for

Hyperchaotic Nonlinear Fractional Differential Equations Systems, Advances in Mathematics and Statistical

Sciences, 445-453, 2015.

3- Haci Mehmet Baskonus, Fethi Bin Muhammad Belgacem, Hasan Bulut, Solutions of Nonlinear Fractional

Differential Equations Systems through an Implementation of the Variational Iteration Method, Fractional

Dynamics, De Gruyter, 333-342, 2015.











2- Haci Mehmet Baskonus, Hasan Bulut and Yusuf Pandir, On the Solution of Nonlinear Time-Fractional Generalized

Burgers Equation by Homotopy Analysis Method and Modified Trial Equation Method, International Journal of

Modeling and Optimization, 4(4), 305-309, 2014.

3- Hasan Bulut, Haci Mehmet Baskonus and Yusuf Pandir, The Modified Trial Equation Method for Fractional Wave

Equation and Time Fractional Generalized Burgers Equation, Abstract and Applied Analysis, Volume 2013, Article

ID 636802, 8 pages, 2013.





1- Fadhil H. Easif, Saad A. Manaa, Bewar A. Mahmood, Majeed A. Yousif, Variational Homotopy Perturbation

Method for Solving Benjamin-Bona-Mahony Equation, Applied Mathematics, 6, 675-683, 2015.

2- S. Islam, S. Zuhra, M. Idrees, H. Ullah, I. A. Shah and A. Zaman, Application of Optimal Homotopy Asymptotic

Method to Benjamin-Bona-Mahony and Sawada-Kotera Equations, World Applied Sciences Journal, 31(11), 1945-

1951, 2014.

7.6. SSCI, AHCI VE SCI Kapsamındaki Dergilerdeki Hakemlikler

1. British Journal of Mathematics & Computer Science

2. Asian Journal of Mathematics and Computer Research

3. International Journal of Physical Sciences

4. Asian Research Journal of Mathematics

5. International Journal of the Physical Sciences

8. İdari Görevler

8.1. Matematik Bölüm Başkanı, Osmaniye Korkut Ata Üniversitesi, Fen-Edebiyat

Fakültesi, 2018-

8.2. Fakülte Kurulu Üyesi, Osmaniye Korkut Ata Üniversitesi, Fen-Edebiyat Fakültesi,

2018-

8.3. Enstitü Kurulu Üyesi, Osmaniye Korkut Ata Üniversitesi, Fen-Edebiyat Fakültesi,

2018-

9. Bilimsel ve Mesleki Kuruluşlara Üyelikler

Matematikçiler Derneği, Üye, 2012.

http://www.sciencedomain.org/journal-home.php?id=6

http://www.ikpress.org/journal/44

http://www.sciencedomain.org/journal/44

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