吴益鹏/ 青年学者
天文与天体物理研究部
N571 yipeng.wu AT sjtu.edu.cn
教育背景
- 2012- 2019, 清华大学 , 博士
- 2008- 2012, 清华大学 , 学士
工作经历
- 2024-1970, 上海交通大学李政道研究所, 李政道学者
- 2024-至今, 上海交通大学物理与天文学院, 长聘教轨副教授
- 2020-2023, 美国加州大学洛杉矶分校, 博士后研究员
研究方向
- 基于等离子体的粒子加速、非线性光学和实验室天体物理研究(理论模拟+实验)
- 强激光与等离子体相互作用一直是国际前沿研究领域,其中最具吸引力的方向之一便是以强激光为驱动源,以等离子体为介质的新型粒子加速器研究。它具有超过传统加速器千倍以上的加速梯度,有望大幅降低高能加速器的规模和成本,为其在基础科学、医疗、工业等领域的应用带来重大变革。基于等离子体加速器的下一代先进光源和超高能粒子对撞机等大科学装置将成为探索物质微观世界的重要利器。 除了驱动粒子加速,强激光与等离子体相互作用也可在实验室产生与天体环境相似的极端物理条件,为天体物理提供了新的研究思路。针对宇宙大尺度磁场起源、高能宇宙线加速、相对论性喷流产生、快速射电暴爆发等重大前沿科学问题,实验室天体物理通过主动、近距、可控的模拟实验,能够深化对关键天文现象的理解,向着揭开浩渺宇宙的神秘面纱迈出重要一步。 同时,等离子体不受光致损伤阈值的限制,且具有极高的储能密度和丰富的光学特性。它可作为先进的光学元器件来多维度操控高功率激光(如能量放大、脉宽压缩、模式调控、频率转换等),提升光束输出性能,进一步支撑和推动基于等离子体的粒子加速和实验室天体物理等前沿领域的发展,助力对自然界极小与极大尺度的探索。
荣誉信息
- 2023, 国家海外高层次人才
- 2023, 上海市海外高层次人才
- 2023, 上海市浦东新区“明珠菁英人才”
- 2023, John Dawson Thesis Prize
- 2022, 2021中国光学十大进展提名奖
- 2021, IEEE Particle Accelerator Science and Technology Doctoral Student Award
- 2021, 蔡诗东等离子体物理奖
- 2020, 清华大学优秀博士学位论文
代表性论文专著
- Yipeng Wu, Jianfei Hua*, Zheng Zhou, Jie Zhang, Shuang Liu, Bo Peng, Yu Fang, Xiaonan Ning, Zan Nie, Fei Li, Chaojie Zhang, Chih-Hao Pai, Yingchao Du*, Wei Lu*, Warren B. Mori and Chan Joshi. High-throughput injection-acceleration of electron bunches from a linear accelerator to a laser wakefield accelerator, Nature Physics 17, 801-806 (2021).
- Y. P. Wu, J. F. Hua*, Z. Zhou, J. Zhang, S. Liu, B. Peng, Y. Fang, Z. Nie, X. N. Ning, C.-H. Pai, Y. C. Du, W. Lu*, C. J. Zhang, W. B. Mori and C. Joshi. Phase space dynamics of a plasma wakefield dechirper for energy spread reduction, Physical Review Letters 122, 204804 (2019).
- Chaojie Zhang*, Yipeng Wu*, Mitchell Sinclair, Audrey Farrell, Kenneth A. Marsh, Irina Petrushina, Navid Vafaei-Najafabadi, Apurva Gaikwad, Rotem Kupfer, Karl Kusche, Mikhail Fedurin, Igor Pogorelsky, Mikhail Polyanskiy, Chen-Kang Huang, Jianfei Hua, Wei Lu, Warren B. Mori and Chan Joshi*. Mapping the self-generated magnetic fields due to thermal Weibel instability, PNAS 119(50), e2211713119 (2022).
- Yipeng Wu*, Chaojie Zhang, Zan Nie, Mitchell Sinclair, Audrey Farrell, Kenneth A. Marsh, E. Paulo Alves, Frank Tsung, Warren B. Mori and Chan Joshi*. Efficient generation and amplification of intense vortex and vector laser pulses via strongly-coupled stimulated Brillouin scattering in plasmas, Communications Physics 7, 18 (2024).
- Y. P. Wu, J. F. Hua*, C.-H. Pai, W. An, Z. Zhou, J. Zhang, S. Liu, B. Peng, Y. Fang, S. Y. Zhou, X. L. Xu, C. J. Zhang, F. Li, Z. Nie, W. Lu*, W. B. Mori and C. Joshi. Near-Ideal Dechirper for Plasma-Based Electron and Positron Acceleration Using a Hollow Channel Plasma, Physical Review Applied 12, 064011 (2019).
- Yipeng Wu, Jianfei Hua*, Zheng Zhou*, Jie Zhang, Shuang Liu, Bo Peng, Yu Fang, Xiaonan Ning, Zan Nie, Qili Tian, Chih-Hao Pai, Yingchao Du, Wei Lu*, Warren B. Mori and Chan Joshi. Tunable Plasma Linearizer for Compensation of Nonlinear Energy Chirp, Physical Review Applied 16, 024056 (2021).
- Yipeng Wu*, Xinlu Xu, Chaojie Zhang, Zan Nie, Mitchell Sinclair, Audrey Farrell, Kenneth A. Marsh, Jianfei Hua, Wei Lu, Warren B. Mori and Chan Joshi*. Efficient generation of tunable magnetic and optical vortices using plasmas, Physical Review Research 5, L012011 (2023).
- Yipeng Wu*, Zheng Zhou, Yingchao Du*, Jianfei Hua, Wei Lu, Warren B. Mori and Chan Joshi. Linearization of an Electron Beam’s Longitudinal Phase Space Using a Hollow-Channel Plasma, Physical Review Applied 19, 064013 (2023).
- Hanqi Feng, Zheng Zhou, Yipeng Wu*, Zhanfeng Gao, Yifan Liang, Nanshun Huang, Lixin Yan*, Haixiao Deng, Yingchao Du, Renkai Li, Wei Lu, Wenhui Huang and Chuanxiang Tang. Generation of Tunable 10-mJ-Level Terahertz Pulses through Nonlinear Plasma Wakefield Modulation, Physical Review Applied 15, 044302 (2021).