基本信息
张永帅,男,1988年4月生,博士,副教授,硕士生导师
邮箱:zhyshuai@yeah.net
教育经历
2007.06—2011.06 河南大学,数学与应用数学,学士,
2011.06—2014.06 宁波大学,应用数学,硕士
2014.06—2017.06 中国科学技术大学,数学物理,博士
工作经历
2017.06—2020.12 浙江科技学院,讲师
2021.01—2023.07 浙江科技学院,副教授
2023.07-至今 绍兴文理学院,副教授
科研情况:
入选人才:浙江省领军人才
主持项目:国家自然科学基金青年项目(11801510),23万,2019.01-2021.12
国家自然科学基金面上项目(12171433),50万,2022.01-2025.12
科研奖励:2021年度(首届)浙江省数学会科研成果二等奖,1/1, 2021.12
发表SCI论文30余篇,
[31] Y. S. Zhang, H.B. Wu, D.Q. Qiu, Revised Riemann-Hilbert problem for the derivative nonlinear Schrodinger equation: vanishing boundary condition. Theoretical and Mathematical Physics, 217(2023), 1595-1608.
[30] Y.S Zhang, D.Q. Qiu, J.S. He, Explicit Nth order solutions of Fokas-Lenells equation based on revised Riemann-Hilbert approach, Journal of Mathematical Physics, 64(2023), 053502.
[29] Z.T. Li, S.W. Xu, Y.S. Zhang, Rogue waves formation by solitons synchronization and resonance: Gerdjikov-Ivanov equation, Nonlinear Dynamics, 111(2023), 11447-11458.
[28] D.Q. Qiu, Y.S. Zhang, Novel solutions of the generalized mixed nonlinear Schrodinger with nonzero boundary condition, Nonlinear Dynamics, 111(2023), 7657-7670.
[27] Y.S. Zhang, N. Wang, D.Q. Qiu and J.S. He, Explicit solitons of Kundu equation derived by Reimann-Hilbert problem, Physics Letters A, 452(2022), 128476.
[26] D.Q. Qiu, Y.S. Zhang, The explicit bound-state soliton of Kundu equation derived by Riemann–Hilbert problem, Applied Mathematics Letters, 135(2023), 108443.
[25] D.Q. Qiu, Y.S. Zhang, Classification of solutions of the generalized mixed nonlinear Schrodinger equation, Theoretical and Mathematical Physics, 211(2022), 838-855.
[24] X. L. Xu, Y. S. Zhang , S. W. Xu, The multiple solitons of the short pulse equation, Mathematical Methods in the Applied Science,44(2021), 106553-10662.
[23] Y.S. Zhang , X. X. Tao, T. T. Yao, J. S. He, The regularity of the multiple higher-order poles solitons of the NLS equation, Studies in Applied Mathematics, (145)2020, 812-827.
[22] Y.S. Zhang , X. X. Tao, S. W. Xu, The bound-state soliton solutions of the complex modified KdV equation, Inverse Problems, 36(2020), 065003.
[21] Y.S. Zhang , S.W. Xu, The soliton solutions for the Wadati-Konno-Ichikawa equation, Applied Mathematics Letters 99(2020), 105995.
[20] Y.S. Zhang , J.G. Rao, Y. Cheng, J.S. He, Riemann-Hilbert method for the Wadati-Konno-Ichikawa equation: N simple poles and one higher-order pole, Physical D: Nonlinear Phenomena, 399(2019) 173-185.
[19] Y.S. Zhang, J.G. Rao, K. Porsezian, J.S. He, Rational and semi-rational solutionsof the Kadomtsev-Petviashvili-based system, Nonlinear Dynamics. 95(2019) 1133–1146.
[18] Y.S. Zhang, J.S. He, Bound-state soliton solutions of the nonlinear Schrodinger equation and their asymmetric decompositions, Chinese Physics Letters, 36(2019) 030201.
[17] S.Z. Liu, Y.S. Zhang, J.S. He, Smooth positons of the second-type derivative
nonlinear Schrodinger equation, Communications in Theoretical Physics. 71(2019), 357-361.
[16] W. Liu, Y.S. Zhang, J.S. He, Rogue wave on a periodic background for Kaup-
Newell equation, Romanian Reports in Physics. 70(2018), 106.
[15] W. Liu, Y.S. Zhang, J.S. He, Dynamics of the smooth positons of complex modified KdV equation, Waves in Random and Complex Media 28(2018), 203-214.
[14] G.H. Wang, Y.S. Zhang, J.S. He, Dynamics of the smooth positons of the Wadati-Konno-Ichikawa equation, Communications in Theoretical Physics. 69(2018), 227-232.
[13] Jiguang Rao, Y.S. Zhang, A.S. Fokas, J.S. He, Rogue waves of the nonlocal
Davey-Stewartson I equation, Nonlinearity 31(2018), 4090-4107.
[12] Y.S. Zhang, D.Q. Qiu, J.S. He, The loop rogue wave solutions for the Wadati-
Konno-Ichikawa equation, Chaos, 28(2018), 103108.
[11] Y.S. Zhang, D.Q. Qiu, Y.Cheng, J.S. He, The Darboux transformation for the
Wadati-Konno-Ichikawa system. Theoretical and Mathematical Physics 191(2017), 710-724.
[10] Y.S. Zhang, Y. Cheng, J.S. He, Riemann-Hilbert method and N-soliton for vector Gerdjikov-Ivanov equation. Journal of Nonlinear Mathematical Physics 24(2017), 210-223.
[9] Y.S. Zhang, D.Q. Qiu, Y. Cheng, J.S. He, Rational solution of the nonlocal nonlinear Schrödinger equation and its application. Romanian Joural of Physics, 62(2017), 108.
[8] Y.S. Zhang, L.J.Guo, A. Chabchoub, J.S. He, Higher–order rogue wave dynamics for a derivative nonlinear Schrödinger equation. Romanian Joural of Physics,62(2017) 102.
[7] D.Q. Qiu, Y.S. Zhang, J.S. He, The rogue wave solutions of a new (2+1)-
dimensional equation, Communications in Nonlinear Science and Numerical Simulation, 30(2016), 307-315.
[6] Y.S. Zhang, L.J. Guo, J.S. He, Z.X.Zhou, Darboux transformation of the second-type derivative nonlinear Schrödinger equation. Letters in Mathematical Physics, 105(2015), 853-891.
[5] D.Q. Qiu, J.S. He, Y.S. Zhang, K. Porsezian, The Darboux transformation of the Kundu–Eckhaus equation. Proceedings of the Royal Society A 471(2015), 20150236.
[4] J. Zhang, W. Liu, D.Q. Qiu, Y.S. Zhang, K. Porsezian, J.S. He, Rogue wave
solutions of a higher–order Chen–Lee–Liu equation. Physical Scripta 90(2015), 055207.
[3] J.S. He, L.J. Guo, Y.S. Zhang, A. Chabchoub, Theoretical and experimental
evidence of non–symmetric doubly localized rogue waves. Proceedings of the Royal Society A. 470(2014), 20140318.
[2] L.J. Guo, Y.S. Zhang, S.W. Xu, Z.W. Wu, J.S. He, The higher order rogue wave
solutions of the Gerdjikov–Ivanov equation. Physica Scripta, 89(2014), 035501.
[1] Y.S. Zhang, L.J. Guo, S.W. Xu, Z.W. Wu, J.S. He, The hierarchy of higher order
solutions of the derivative nonlinear Schrödinger equation. Communications in Nonlinear Science and Numerical Simulation, 19(2014), 1706-1722.
