温增润 实验师

院部/部门:环球ug登录网站

电子邮箱: wenzengrun@163.com     办公地点: 山东师范大学长清湖校区文渊楼D304
个人简历

温增润,男,199010月出生,山东潍坊人。2013年本科毕业于山东师范大学环球ug登录网站;2016年获山东师范大学光学硕士学位;2020年毕业于西北大学光子学与光子技术研究所。主要从事光子晶格、光纤激光器器件及脉冲动力学方面的研究。

招生方向

硕士研究生招生专业:物理学-光学

研究方向   

光纤激光器、光子晶格、光孤子

主持科研项目

基于合成维度调控的窄线宽锁模光纤激光器机理研究,国家自然科学基金青年项目,12104272,主持

光诱导拓扑耦合莫尔晶格的边界态及拓扑孤子研究,国家自然科学基金面上项目,参与

腔内调制产生超快涡旋阵列激光及其应用研究,国家自然科学基金面上项目,参与

论文成果

[1] Dongwei Li, Weiming Wang, Song Gao, Yuanmei Gao, Yangjian Cai, Zuoqiang Hao, and Zengrun Wen, Controlling self-healing of optical field based on moiré dual-microlens arrays, New Journal of Physics, 2023, 25, 083023.

[2] Chengzhen Lu, Yuanmei Gao, Xuefei Cao, Yingying Ren, Zhanghua Han, Yangjian Cai, and Zengrun Wen, Linear and nonlinear edge and corner states in graphenelike moiré lattices, Physical Review B, 2023, 108, 014310.

[3] Siwei Tang, Chunlei Shang, Zhaofeng Liu, Chengzhen Lu, Yangjian Cai, Yuanmei Gao, and Zengrun Wen, Self-healing of holographically generated moire lattice wave fields, Chinese Optics Letters, 2023, 21(3), 030502.

[4] Siwei Tang, Chunlei Shang, Chengzhen Lu, Xiaolei Sun, Yangjian Cai, Yuanmei Gao, and Zengrun Wen, Optical localization transition in a dual-periodical phase-modulated synthetic photonic lattice, Physical Review A, 2023, 107, 023505.

[5] Zengrun Wen, Weiming Wang, Song Gao, Kaile Wang, Yangjian Cai, and Yuanmei Gao, Soliton macromolecule dynamics in fiber lasers with sinusoidal nonlinear optical loop mirror. Physical Review A, 2022, 106, 023522.

[6] Zengrun Wen, Song Gao, Weiming Wang, Kaile Wang, Yangjian Cai, and Yuanmei Gao, Non-Hermitian mode-locking synthesized by parity-time and anti-parity-time symmetric modulations, Optics Letters, 2022, 47(14): 3443-3446.

[7] 尚春雷, 王石, 卢成臻, 梁春豪, 高垣梅, 蔡阳健, 温增润. Polarization State Variation Induced by the Circularly Polarized Light Scattering in LiNbO3Fe CrystalInvited, ACTA Photonica Sinica, 2022, 51(1): 0151113.

[8] Chunlei Shang, Chengzhen Lu, Siwei Tang, Yuanmei Gao, and Zengrun Wen, Generation of gradient photonic moiré lattice fields, Optics Express, 2021, 29(18): 29116-29127.

[9] Zengrun Wen, Baole Lu, Kaile Wang, Shuangcheng Chen, Jintao Bai*, Generating narrow-bandwidth pulses in a hybrid mode-locked fiber laser, Optics Letters, 2021, 46(5): 1097-1100.

[10] Zengrun Wen#, Kaile Wang#, Haowei Chen, Baole Lu*, Jintao Bai*, Self-sweeping ytterbium-doped fiber laser based on a fiber saturable absorber, Applied Physics Express, 2021, 14(1): 012005.

[11] Zengrun Wen, Kaile Wang, Baole Lu*, Haowei Chen, Jintao Bai*, Stable-, period-N- and multiple-soliton regimes in a mode-locked fiber laser with inconsistently filtered central wavelengths, Optics Express, 2020, 28(19): 28033-28044.

[12] Zengrun Wen, Baole Lu*, Xinyuan Qi, Chaoyang Zhang, Haowei Chen, Jintao Bai, Effect of spectral filtering on pulse dynamics in a mode-locked fiber laser with a bandwidth tunable filter, Journal of the Optical Society of America B, 2019, 36(4): 952-958.

[13] Zengrun Wen, Baole Lu, Kaile Wang, Xinyuan Qi, Jintao Bai*, Discrete optical propagation in one-dimensional synthetic photonic lattice, Journal of the Optical Society of America B, 2020, 37(11): 3152-3161.

[14] Zengrun Wen, Kaile Wang, Shuangcheng Chen, Haowei Chen, Xinyuan Qi, Baole Lu, Jintao Bai, Narrow bandwidth Q-switched erbium-doped fiber laser based on dynamic saturable absorption filtering effect, Optics & Laser Technology, 2021, in press.

[15] Baole Lu#*, Zengrun Wen#, Kexun Huang, Xinyuan Qi, Na Wang, Haowei Chen, Jintao Bai, Passively Q-switched Yb3+-doped fiber laser with ReS2 saturable absorber, IEEE Journal of Selected Topics in Quantum Electronics, 2018, 25(4): 1-4.

[16] Kailong Zhang#, Zengrun Wen#, Baole Lu*, Haowei Chen, Chaoyang Zhang, Xinyuan Qi, Jintao Bai*, Passively Q-switched pulsed fiber laser with higher-order modes, Infrared Physics & Technology, 2020, 105: 103163.

[17] Shuangcheng Chen, Baole Lu*, Zengrun Wen*, Haowei Chen, Bai Jintao, Single/dual-wavelength switchable and tunable passively Q-switched erbium-doped fiber laser, Infrared Physics & Technology, 2020, 111, 103519.

荣誉奖励

 

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