研究方向：强场激光物理；激光等离子体物理；高性能数值模拟

主讲课程：理论力学，大学物理，大学物理实验，现代光学基础与前沿（研）

教育背景：

2005/9 - 2010/7，中国科学院·上海光学精密机械研究所，等离子体物理，博士

2001/9 - 2005/7， 中山大学，物理学，学士

工作履历：

2019/6 – 至今    湖北大学， 物理学院，教师

2013/7– 2019/5， 德国马普学会·核物理研究所（海德堡），博士后

2012/7– 2013/7， 西北大学， 光子学与光子技术研究所，教师

2010/7 - 2012/6， 北京大学，物理学院，博士后

2007/12 - 2008/11， 德国马普学会·量子光学研究所（慕尼黑），联合培养博士生

学术兼职：

担任湖北省物理学会理事

奖励与荣誉：

湖北省人才计划获得者（2020年、2021年）

学术成果、科研项目：

ORCID: https://orcid.org/0000-0001-7567-5350

教学科研项目：

1. 教育部高等学校物理学类专业教学指导委员会2024年度高等学校物理专业课程教学研究项目，JZW-24-LLLX-05，面向量子信息科学专业教育的理论力学课程设计与实践探索，主持

2. 湖北省自然科学基金创新群体项目，2024AFA038，利用飞秒多脉冲光谱研究物理化学反应中间态，参与

3. 国家自然科学基金面上项目，12075081，激光等离子体中自旋动力学效应及激光驱动极化粒子束加速研究，主持

4. 国家自然科学基金青年项目，11105009，圆偏振强激光驱动相对论飞镜研究，主持

5. 国家自然科学基金青年项目，11205009，基于超薄纳米靶体的激光等离子体质子加速实验研究，参与

6. 国家自然科学基金青年项目，11205010，圆极化激光与等离子体相互作用中共振加速产生高能量密度电子束，参与

7. 国家自然科学基金青年项目，61108006，周期性势场调制下量子体系的光学相应特性与应用研究，参与

8. 国家自然科学基金青年项目，61008010，飞秒相对论强激光驱动空泡机制加速质子的研究，参与

9. 湖北省自然科学基金面上类项目，磁涡流离子加速中的自旋动力学行为研究，2020CFB711，主持

10. 中国博士后科学基金面上项目，20110490229，主持

科研论文：

[1] B. Liu, B. F. Lei, Y. Gao, Meng Wen, and K. Zhu, “Plasma opacity induced by laser-driven movement of background ions”, Plasma Phys. Control. Fusion, 66, 115004 (2024).

[2] S. Tang, Y. Xin, Meng Wen, M. A. Bake, B. S. Xie, “Fully polarized Compton scattering in plane waves and its polarization transfer”, Matter Radiat. Extremes, 9, 037204 (2024).

[3] Q. Shen, C. Gu, M. Li, X. Zhang, H. Xiong, Y. Liu, L. Jin, Meng Wen, and Z. Wei, “Role played by port drains in a Maxwell fish-eye lens”, J. Opt. Soc. Am. B, 40, 1483 (2023).

[4] Meng Wen, L. Ding, W. J. Wu, Q. Li, C.X. Yu, and L. L. Jin, “Spinorial dynamics of relativistic electrons during ponderomotive scattering in intense laser pulses”, Eur. Phys. J. D, 76,168 (2022).

[5] Y. I. Salamin, Meng Wen, C. H. Keitel, “A cosmic Zevatron based on cyclotron auto-resonance”The Astrophysical Journal, 907, 24 (2021).

[6] Meng Wen, Y. I. Salamin, C. H. Keitel, “Electron acceleration in laser-solid interactions beyond the ponderomotive limit”, Phys. Rev. Applied 13, 031001 (2020).

[7] L. L. Jin, Meng Wen, X. M. Zhang, A. Huetzen, J. Thomas, M. Buescher, and B. F. Shen, “Spin polarized proton beam generation from gas-jet targets by intense laser pulses”, Phys. Rev. E 102, 011201 (2020).

[8] Meng Wen, M. Tamburini, C. H. Keitel, “Polarized laser-wakefield-accelerated kiloampere electron beams”, Phys. Rev. Lett. 122, 214801 (2019).

[9] Meng Wen, Yousef I. Salamin C. H. Keitel, “Electron acceleration by a radially-polarized laser pulse in a plasma micro-channel”, Opt. Express 27, 557-566 (2019).

[10] Meng Wen, C. H. Keitel, H. Bauke, “Spin-one-half particles in strong electromagnetic fields: Spin effects and radiation reaction”, Phys. Rev. A 95, 042102 (2017).

[11] Meng Wen, H. Bauke, C. H. Keitel, “Identifying the Stern-Gerlach force of classical electron dynamics”, Sci. Rep. 6, 31624 (2016).

[12] Y. H. Yu, B. F. Shen, W. Yu, W. P. Wang, X. M. Zhang, L. L. Ji, X. Y. Zhao, X. F. Wang, L. Q. Yi, Y. Shi, T. J. Xu, L. G. Zhang, and Meng Wen, “Layered structure in the interaction of thin foil with two laser pulses” Phys. Plasmas 21, 024502 (2014).

[13] L. L. Jin, Meng Wen, B. F. Shen, “Nanocontrol of single dense energetic electron sheet in a chirped pulse with critical relativistic intensity”, Phys. Rev. ST Accel. Beams 16, 051301 (2013).

[14] Meng Wen, H. C. Wu, L. L. Jin, Y. R. Lu, J. E. Chen, and X. Q. Yan, “Energy spread inhibition of compact electron bunch driven by circularly polarized laser pulse”, Phys. Plasmas 19, 083112 (2012).

[15] Meng Wen, L. L. Jin, Y. R. Lu, J. E. Chen, and X. Q. Yan, “Frequency tunable X-ray/gamma-ray source via Thomson backscattering on flying mirror from laser foil interaction”, Appl. Phys. Lett. 101, 021102 (2012).

[16] Meng Wen, L. L. Jin, H. Y. Wang, Z. Wang, B. F. Shen, Y. R. Lu, J. E. Chen, and X. Q. Yan, “Determination of carrier-envelope phase of relativistic 0few-cycle laser pulses by Thomson backscattering spectroscopy”, Phys. Rev. E 85, 035401(R) (2012).

[17] L. L. Ji, B. F. Shen, X. M. Zhang, Meng Wen, C, Q. Xia, W. P. Wang, J. C. Xu, Y. H. Yu, M. Y. Yu, Z. Z. Xu, “Ultra-intense single attosecond pulse generated from circularly polarized laser interacting with overdense plasma”, Phys. Plasmas 18, 083104 (2011).

[18] W.P. Wang, B.F. Shen, X.M. Zhang, L.L. Ji, Meng Wen, J.C. Xu, Y.H. Yu, Y.L. Li, and Z.Z. Xu, “Efficient acceleration of monoenergetic proton beam by sharp front laser pulse”, Phys. Plasmas 18, 013103 (2011).

[19] Meng Wen, B. F. Shen, X. M. Zhang,  L. L. Ji, W. P. Wang, J. C. Xu, and Y. H. Yu, “Generation of high charged energetic electrons by using multiparallel laser pulses”, Phys. Plasmas 17, 103113 (2010).

[20] Meng Wen, B. F. Shen, X. M. Zhang, F. C. Wang, Z. Y. Jin, L. L. Ji, W. P. Wang, J. C. Xu and K. Nakajima, “Controlled electron acceleration in bubble regime by optimizing plasma density”, New J. Phys. 12, 0451010 (2010).

[21] X. M. Zhang, B. F. Shen, L. L. Ji, F. C. Wang, Meng Wen, W. P. Wang, J. C. Xu, and Y. H. Yu, “Ultrahigh energy proton generation in sequential radiation pressure and bubble regime”, Phys. Plasmas 17, 123102 (2010).

[22] J. C. Xu, B. F. Shen, X. M. Zhang, Meng Wen, L. L. Ji, W. P. Wang, Y. H. Yu, and Y. L. Li, “Overloading effect of energetic electrons in the bubble regime of laser wakefield acceleration”, Phys. Plasmas 17, 103108 (2010).

[23] L. L. Ji, B. F. Shen, D. X. Li, Ding Wang, Y. X. Leng, X. M. Zhang, Meng Wen, W. P. Wang, J. C. Xu, and M. Y. Yu, “Relativistic Single-Cycled Short-Wavelength Laser Pulse Compressed from a Chirped Pulse Induced by Laser-Foil Interaction”, Phys. Rev. Lett. 105, 025001 (2010).

[24] W. P. Wang, W. T. Wang, X. M. Zhang, L. L. Ji, F. C. Wang, Meng Wen, J. C. Xu, Y. Cai, Y. Xu, C. Wang, Y. X. Leng, J. S. Liu, R. X. Li, B. F. Shen, and Z. Z. Xu, “Angular distribution of emitted electrons due to intense p-polarized laser foil interaction”, Phys. Plasmas 17, 033101 (2010).

[25] J. C. Xu, B. F. Shen, X. M. Zhang, Meng Wen, L. L. Ji, W. P. Wang, Y. H. Yu, and K. Nakajima, “Generation of a large amount of energetic electrons in complex-structure bubble”, New J. Phys. 12, 023037 (2010).

[26] Meng Wen, H. C. Wu, J. Meyer-ter-Vehn, “Acceleration of ultra-thin electron layer. Analytical treatment compared with 1D-PIC simulation”, Eur. Phys. J. D 55, 451 (2009).

[27] L. L. Ji, B. F. Shen, X. M. Zhang, F. C. Wang, Z. Y. Jin, C. Q. Xia, Meng Wen, W. P. Wang, J. C. Xu, and M. Y. Yu, “Generating Quasi-Single-Cycle Relativistic Laser Pulses by Laser-Foil Interaction”, Phys. Rev. Lett. 103, 215005 (2009).

[28] F. C. Wang, B. F. Shen, X. M. Zhang,  Z. J. Jin, Meng Wen, L. L Ji, W. P. Wang, J. C. Xu, M. Y. Yu, and J. Cary, “High-energy monoenergetic proton bunch from laser interaction with a complex target” Phys. Plasmas 16, 093112 (2009).

[29] L. L Ji, B. F. Shen, X. M. Zhang, F. C. Wang, Z. J. Jin, X. M. Li, Meng Wen, W. P. Wang, and J. C. Xu, “Comment on ‘Generating High-Current Monoenergetic Proton Beams by a Circularly Polarized Laser Pulse in the Phase-Stable Acceleration Regime’” Phys. Rev. Lett. 102, 239501 (2009).

[30] X. M. Zhang, B. F. Shen, L. L Ji, F. C. Wang,  Z. J. Jin, X. M. Li, and Meng Wen, and John R. Cary, “Ion acceleration with mixed solid targets inter-acting with circularly polarized lasers” Phys. Rev. ST Accel. Beams 12, 021301 (2009).

[31] L. L Ji, B. F. Shen, X. M. Zhang, F. C. Wang, Z. J. Jin, X. M. Li, Meng Wen, and J. R. Cary, “Generating monoenergetic heavy-ion bunches with laser-induced electrostatic shocks”, Phys. Rev. Lett. 101, 164802 (2008).

[32] X. M. Zhang, B. F. Shen, M. Y. Yu, X. M. Li, Z. J. Jin,  F. C. Wang, and Meng Wen, “Effect of plasma temperature on electrostatic shock generation and ion acceleration by laser” Phys. Plasmas 14, 113108 (2007).

[33] X. M. Zhang, B. F. Shen, X. M. Li, Z. J. Jin,  F. C. Wang, and Meng Wen, “Efficient GeV ion generation by ultraintense circularly polarized laser pulse” Phys. Plasmas 14, 123108 (2007).