王艳,博士,副教授,硕士生导师.2000年获太原理工大学自动化学士学位,2003年获燕山大学控制理论与控制工程硕士学位,2017年获山西大学理论物理博士学位。现任山西省通信理事会理事。2012.9-2013.9赴澳大利亚国立大学非线性光学中心访学。目前主要从事非线性光学、光通信及信号传输与处理等方面的科研工作。
近年来,先后主持国家自然科学基金青年基金一项,主持山西省留学基金一项,参与国家自然科学基金面上基金一项。在光学快讯(Optics Express)、光通信(Optics Communications)、物理评论(Physical Review A)等国际国内重要学术刊物发表SCI论文30多篇,他引次数100余次。获批发明专利两项,参编教材《电子技术》一本。
[1] Yan Wang*, Yangyang Xi. The Periodic soliton solutions for a nonlocal nonlinear schrodinger equation with higher-order dispersion. Romanian Reports in Physics,2024,76,101.
[2] Dongdong Wang, Yan Wang,* and Lu Li. Resonant mode conversion in partially parity-time-symmetric waveguides. Phys.Rev.A, 2024,109,023515.
[3] Dongdong Wang, Lu Li, and Yan Wang* . Azimuthons induced by degenerate linear eigenmodes and their conversions under nonlinear modulation.Optics Express,2023,31(19),30783.
[4] Yan Wang*, Zhigang Xin, Ruifang Zhang. Symmetrical reversal transmission of Airy pulses in dispersion-managed fiber systems.Optics Express, 2022,30(19),34566.
[5] Yan Wang ∗, Zhigang Xin, Mengjiao Li. Initial chirp-induced Raman frequency shift of Airy pulse. Optics Communications, 2022, 510: 127953.
[6] 辛志刚, 王艳*. 非均匀光纤中啁啾对艾里脉冲聚焦特性的影响[J].中国激光,2022,49(06):0608002.
[7] Mengjiao Li, Yan Wang*. Effect of the linear potential on frequency shift of Airy pulses[J]. Journal of the Optical Society of America B.2022,39(12):3231-3236.
[8] Nan Wang, Yan Wang*. Manipulation of dipole soliton for higher order nonlinear Schrödinger equation in the nonuniform management systems. Optics Communications, 2022, 520: 128483. 9.
[9] Yan Wang*, Nan Wang, Ruifang Zhang. Breather similariton solutions of the nonlocal nonlinear Schrödinger equation with varying coefficients. Optik, 2022, 270: 169953.
[10] 王艳*,秦文帅,王楠.变系数Hirota方程中高功率脉冲串的产生及传输特性.量子光学学报, 2022,28(1):28-36.
[11] 王艳*,李禄.基于怪波实现光脉冲串的全光放大. 物理学报,2021, 70(22): 224213.
[12] 陈麒宇,辛志刚,王艳*.分数薛定谔方程中啁啾对艾里光束传输特性的影响.量子光学学报,2021,27(4),302-311.
[13] Feng Zang, Yanhong Ge, Yan Wang*. Effect of initial chirp on the dynamics of the optical beam in a medium with parabolic potential.Appl.Phys.B,2020,126: 164.
[14] 秦文帅,槐利,王艳*.变系数Hirota方程中高阶色散对多压缩点Peregrine怪波梳的影响.量子光学报,2020,26(4):356-364.
[15] Yan Wang*, Lu Li. Optical amplification and reshaping based on rogue wave in the femtosecond regime. Rom.J.Phys, 2017,62,205.
[16] Yan Wang*, Lijun Song, Lu Li.Optical based on the peregrine rogue wave. Appl.Opt, 2016, 55(26):7241-7246.
[17] Yan Wang*, Lijun Song, Lu Li, Boris A. Malomed. High-power pulse trains excited bymodulated continuous wave. J. Opt.Soc.Am B, 2015, 32(11):2257-2263.
[1] 基于怪波实现光脉冲放大的方法研究.国家自然科学基金青年基金项目,2018.1-2020.12,主持人
[2] 怪波在光纤中的传输特性及应用研究.西省留学人员科研资助项目,2015.12-2018.12,主持人
[3] 基于增益/损耗调制的波导中光学传输动力学的特性研究.家自然科学基金面上项目,2015.1-2018.12.排名第三
[4] 矿井无线通信协作中继技术研.山西省青年科技基金,2012.1-2014.12. 排名第三
[1] 王建珍,王艳.《电子技术》.人民邮电出版社2012年。
