余芹

发布时间:2022-06-30浏览次数:2419


余芹讲师

研究方向:激光与物质相互作用,邮箱:qqyu@cczu.edu.cn







个人简介

山东人,2017年毕业于复旦大学现代物理研究所,获得理学博士学位。博士期间研究领域为激光与物质相互作用,并发表多篇文章,之后进入上海光机所任博士后,研究领域为PIC数值模拟、粒子加速等,期间获得国家自然科学基金(青年)项目资助。出站后来到常州大学机械与轨道交通学院担任讲师,从事教学和科研方面工作。


教育经历

2015-122016-10,捷克科学院,ELI部门,联合培养博士研究生

2011-092017-01,复旦大学,现代物理研究所,博士(硕博连读)

2007-092011-06,临沂大学,物理学院,学士


工作经历

2022-01至现在,常州大学,机械与轨道交通学院,讲师

2020-012020-04COMSOL中国公司(上海),软件工程师

2018-012020-01,中国科学院上海光学精密机械研究所,博士后


科学研究

1)研究方向

激光与物质相互作用PIC数值模拟,粒子加速,高能量密度物理QED物理

2)科研项目

国家自然科学基金青年项目11804348,基于尾场加速的全光康普顿散射光源的研究,2019-012022-01,结题,主持

3)代表性著作,论文

期刊论文

1. X. Y. Liu, J. F. Qu, P. Liu, H. C. Fan, L. Cai, F. Zhang, Q. Yu, X. Li, L. W. Zhang and Q. Kong. “Electron trapping and acceleration in plasma wake field produced by an evolving hollow electron beam”, J. Plasma Phys., 2021, 87: 905870104.

2. J. F. Qu, X. F. Li, X. Y. Liu, P. Liu, Y. J. Song, Z. Fu, Q. Yu, and Q. Kong. Terahertz radiation generated by shell electrons in the bubble regime via the interaction between an intense laser and underdense plasma”, Phys. Plasmas, 2019, 26: 033115.

3. X.S. Geng, L.L. Ji, B.F. Shen, B. Feng, Z. Guo, Q. Yu, L.G. Zhang & Z.Z. Xu, “Quantum reflection above the classical radiation -reaction barrier in the quantum electro-dynamics regime”, Communications Physics, 2019, 2: 66.

4. Yitong Wu, Liangliang Ji, Xuesong Geng, Qin Yu, Nengwen Wang, Bo Feng, Zhao Guo, Weiqing Wang, Chengyu Qin, Xue Yan, Lingang Zhang, Johannes Thomas, Anna Hützen, Markus Büscher, TPeter Rakitzis, Alexander Pukhov, Baifei Shen and Ruxin Li, “Polarized electron-beam acceleration driven by vortex laser pulses”, New Journal of Physics, 2019, 21: 073052.

5. Zhao Guo, Liangliang Ji, Qin Yu, Bo Feng, Xuesong Geng, Lingang Zhang, Weiqing Wang, and Baifei Shen “Leveraging radiation reaction via laser-driven plasma fields”, Plasma Phys. Control. Fusion, 2019, 6: 61.

6. B. Feng, L. L. Ji, B. F. Shen, X. S. Geng, Z. Guo, Q. Yu, T. J. Xu, and L. G. Zhang, “Effects of micro-structures on laser-proton acceleration”, Physics of Plasmas, 2018, 10: 25.

7. S. Kawata, Y. J. Gu, X. F. Li, T. Karino, H. Katoh, J. Limpouch, O. Klimo, D. Margarone, Q. Yu, Q. Kong, S. Weber, S. Bulanov, and A. Andreev, “Dynamic stabilization of filamentation instability”, Physics of Plasmas, 2018, 25: 011601.

8. Yitong Wu, Liangliang Ji, Lingang Zhang, Zhao Guo, Bo Feng, Xuesong Geng, Qin Yu, Nengwen Wang, Xiaomei Zhang, Baifei Shen, and Ruxin Li “Effects of radiation reaction on laser proton acceleration in the bubble regime”, Physics of Plasmas, 2018, 25(9): 093101.

9. S. Weber. Q. Yu et al., “P3: An installation for high-energy density plasma physics and ultra-high intensity laser–matter interaction at ELI-Beams”, Matter and Radiation at Extremes, 2017, 2: 149e176.

10. Q. Yu, Y J Gu, X F Li, J F Qu, Q Kong and SKawata. “Control of laser absorbing efficiency and proton quality by a specific double target”, New Journal of Physics, 2016, 8: 083024-083030.

11. X. F. Li, Q. Yu, Y. J. Gu, J. F. Qu, Y. Y. Ma, Q. Kong, and S. Kawata,“Calculating the radiation characteristics of accelerated electrons in laser-plasma interactions”, Physics of Plasmas,2016, 23: 033113-033119.

12. Y. J. Gu, Q. Yu, O. Klimo, T. Zh. Esirkepov, S. V. Bulanov, S. Weber, and G. Korn, “Fast magnetic energy dissipation in relativistic plasma induced by high order laser modes”, High Power Laser Science and Engineering, 2016, 4: e19-26.

13. S Kawata, D Kamiyama, Y Ohtake, M Takano, D Barada, Q Kong, P X Wang , Y J Gu, W M Wang, J Limpouch, A Andreev, S V Bulanov, Z M Sheng, O Klimo, J Psikal, Y Y Ma, X F Li, and Q. Yu, “Controllable Laser Ion Acceleration”, Journal of Physics: Conference Series, 2016, 691: 012021.

14. X. F. Li, Q. Yu, Y. J. Gu, S. Huang, Q. Kong, and S. Kawata, “Bubble shape and electromagnetic field in the nonlinear regime for laser wakefield acceleration”, Physics of Plasmas, 2015, 22: 083112-083119.

15. Q. Yu, Y. J. Gu, X. F. Li, S. Huang, Q. Kong, and S. Kawata, “Electron self-injection into the phase of a wake excited by a driver laser in anonuniform density target”, Physics of Plasmas,2015, 22: 073107-073112.

16. Q. Yu, Q. Kong, Y. J. Gu, X. F. Li, S. Huang and S. Kawata “High-quality electron beams generation in a linear upramp density target”, EPL, 2015, 110: 35002-35009.

17. Q. Yu, Y. J. Gu, X. F. Li, S. Huang, F. Zhang, Q. Kong, Y. Y. Ma, and S. Kawata, “Controllable high-quality electron beam generation by phase slippage effect in layered targets”, Physics of Plasmas,2014, 21: 073109-073113.

18. X. F. Li, Y. J. Gu, Q. Yu, S. Huang, F. Zhang, Q. Kong, and S. Kawata“Dependence of electron trapping on bubble geometry in laser-plasma wakefield  acceleration”, Physics of Plasmas,2014, 21, 073109-073113.

19. Y. J. Gu, Z. Zhu, X. F. Li, Q. Yu, S. Huang, F. Zhang, Q. Kong, and S. Kawata “Stable long range proton acceleration driven by intense laser pulse with underdense plasmas”, Physics of Plasmas, 2014, 21: 063104.

20. Y. J. Gu, Q. Kong, S. Kawata, T. Izumiyama, X. F. Li, Q. Yu, P. X. Wang, and Y. Y. Ma, “Enhancement of proton acceleration field in laser double-layer target interaction”, Physics of Plasmas, 2013, 20: 070703-070708.

21. 张枫, 黄硕, 李晓锋, 余芹, 顾彦珺, 孔青, “双束平行入射电子束引导的自注入电子加速效果的研究”, Acta Phys. Sin., 2013, 62: 242901.

22. Y. J. Gu, Q. Kong, S. Kawata, T. Izumiyama, T. Nagashima, M. Takano, X. F. Li, Q. Yu, D. Barada, Y. Y. Ma and P. X. Wang, “Ion acceleration by  ultra-intense laser pulse interacting with double-layer near-critical density  plasma”, journal of physics, 2013, 688: 012021.

23. Y. J. Gu, Q. Yu, Q. Kong, Z. Zhu, X. F. Li, C. Y. Chen, and S. Kawata, “Large quantity ion beam generation by persistent Coulomb explosion in a near-critical density plasma channel”, Physics of Plasmas, 2012, 19: 092308-092313.