等离子体物理教研室-蔡洪波
所在单位:北京应用物理与计算数学研究所
导师职称:研究员/激光等离子体相互作用组长, 博导,2023年国家杰出青年科学基金获得者
电子邮箱:cai_hongbo@iapcm.ac.cn
招生专业:等离子体物理
研究方向:聚变等离子体物理
一、教育经历
2002.9—2007.7 中国工程物理研究院 理学博士
1998.9—2002.7 浙江大学物理系 理学学士
二、工作经历
2014.9—至今 北京应用物理与计算数学研究所 研究员
2014.9—至今 北京大学应用物理与技术研究中心 研究员(兼职)
2009.9—2014.9 北京应用物理与计算数学研究所 副研究员
2007.9—2009.9 日本大阪大学激光工程研究所 特任研究员
2007.7—2007.9 北京应用物理与计算数学研究所 助理研究员
三、研究方向及简介
激光聚变:大尺度激光等离子体相互作用,惯性约束聚变中的动理学效应,激光聚变物理建模。
强场物理:百兆高斯磁场的产生和应用,超强激光驱动新型粒子源和辐射源。
天体物理:无碰撞冲击波的形成和演化,束流不稳定性的发展和抑制。
计算物理:混合流体-PIC模拟程序和高性能粒子模拟程序的发展和应用。
四、个人荣誉、所获奖项
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序号
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获奖项目名称
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奖励名称
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奖励等级
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授奖单位
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获奖日期
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排名
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备注
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1
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间接驱动快点火聚变靶能量耦合效率的提升
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2020年度中国光学十大进展-应用研究类
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省部级
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中国激光杂志社
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2020年
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2
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团队奖(共46人)
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2
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于敏数理科学奖
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于敏数理科学奖
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省部级
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中物院
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2020年
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1
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个人奖
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3
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间接驱动高增益快点火综合集成实验研究
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中国工程物理研究院科技创新奖
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省部级
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中物院
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2020年
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2
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团队奖(共10人)
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4
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束流不稳定性动理学研究
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中国工程物理研究院“双百人才工程”
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省部级
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中物院
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2014年
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1
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个人奖
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5
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动理学模拟在激光惯性约束聚变中的应用
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“天河之星”优秀应用奖
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国家超级计算广州中心
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2020年
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1
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团队奖
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五、代表性论文及成果
1. Feng Zhang,Hongbo Cai*, W. M. Zhou, Z. S. Dai, L. Q. Shan, H. Xu, J. B. Chen, F. J. Ge, Q. Tang, W. S. Zhang, L. Wei, D. X. Liu, J. F. Gu, H. B. Du, B. Bi, S. Z. Wu, J. Li, F. Lu, H. Zhang, B. Zhang, M. Q. He, M. H. Yu, Z. H. Yang, W. W. Wang, H. S. Zhang, B. Cui, L. Yang, J. F. Wu, W. Qi, L. H. Cao, Z. Li, H. J. Liu, Y. M. Yang, G. L. Ren, C. Tian, Z. Q. Yuan, W. D. Zheng, L. F. Cao, C. T. Zhou, S. Y. Zou, Y. Q. Gu*, K. Du, Y. K. Ding, B. H. Zhang, S. P. Zhu*, W. Y. Zhang and X. T. He, "Enhanced energy coupling for indirect-drive fast-ignition fusion targets", Nature Physics, 16, 810-815 (2020). (封面推荐文章)
2. Xufei Xie, Lifei Hou,Hongbo Cai* et al., Measurement of Time-dependent Drive Flux on the Capsule for Indirectly Driven Inertial Confinement Fusion Experiments, Physical Review Letters, accepted.
3. L.Q. Shan,Hongbo Cai*, W. S. Zhang, Q. Tang, F. Zhang,Z. F. Song, B. Bi, F. J. Ge, J. B. Chen, D. X. Liu, W.W. Wang, Z. H. Yang, W. Qi, C. Tian, Z. Q. Yuan, B. Zhang, L. Yang, J. L. Jiao, B. Cui, W. M. Zhou, L. F. Cao, C. T. Zhou, Y. Q. Gu*, B. H. Zhang, S. P. Zhu, and X. T. He, " Experimental evidence of kinetic effects in indirect-drive inertial confinement fusion hohlraums", Phys. Rev. Lett. 120, 195001 (2018).
4. Hongbo Cai, K. Mima, W. M. Zhou, T. Jozaki, H. Nagatomo, A. Sunahara, and R. J. Mason, “Enhancing of the number of high energy electrons deposited to a compressed pellet via double cones in fast ignition”,Phys. Rev. Lett. 102,245001 (2009).
5. Xinxin Yan,Hongbo Cai*, P.L. Yao, H.X. Huang, W.S. Zhang, B. Du, S.P. Zhu, and X.T. He, Ion Kinetic Effects on the Interfacial Mix and Richtmyer-Meshkov Instability, New Journal of Physics, 23, 053010 (2021).
6. Bao Du,Hongbo Cai*, Separating the contributions of electric and magnetic fields in forming the detected flux distributions in a proton radiography, Matter Radiat. Extremes 6, 035903 (2021).
7. Hongbo Cai*, Xinxin Yan, Peilin Yao, Shaoping Zhu, Hybrid fluid-particle modeling of shock-driven hydrodynamic instabilities in a plasma, Matter Radiat. Extremes 6, 035901 (2021).
8. Wenshuai Zhang,Hongbo Cai*, Bao Du, Dong-guo Kang, Shi-yang Zou, Shao-ping Zhu*, Full particle-in-cell simulation of the formation and structure of collisional plasma shock wave, Physical Review E 103, 023213 (2021).
9. Peilin Yao,Hongbo Cai*, Xinxin Yan, Wenshuai Zhang, Bao Du, Jianmin Tian, Enhao Zhang, XueWu Wang, and Shaoping Zhu*, Kinetic study of transverse electron-scale interface instability in relativistic shear flows, Matter Radiat. Extremes 5, 054403 (2020).
10. J.M. Tian,Hongbo Cai*, W.S. Zhang et al., " Generation mechanism of 100 MG magnetic fields in the interaction of ultra-intense laser pulse with nanostructured target", High Power Laser Science and Engineering, 8, e16 (2020).
11. Hongbo Cai, L.Q. Shan, Z.Q. Yuan et al., Study of the kinetic effects in indirect-drive inertial confinement fusion hohlraums, High Energy Density Physics, 36, 100756 (2020).
12. Bao Du,Hongbo Cai*, W.S. Zhang, J.M. Tian, E.H. Zhang, S.Y. Zou, J. Chen, and S.P. Zhu, "Distinguishing and diagnosing the spontaneous electric and magnetic fields of Weibel instability through proton radiography", Plasma Physics and Controlled Fusion 62, 025017 (2020).
13. J.M. Tian,Hongbo Cai*,D. Wu, W.S. Zhang, E.H. Zhang, B. Du, and S.P. Zhu, " Influence of ionization on the formation of a plasma channel and transport of a relativistic electron beam in hydrocarbon gas", Plasma Physics and Controlled Fusion61, 125002 (2019).
14. X.X. Yan,Hongbo Cai*, Wen-Shuai Zhang, Liang Hao, Pei-lin Yao, Xin Li, Shi-yang Zou, Shao-ping Zhu*, and Xian-tu He, " Anomalous mix induced by a collisionless shock wave in an inertial confinement fusion hohlraum", Nuclear Fusion59, 106016 (2019).
15. Bao Du,Hongbo Cai*, Wen-shuai Zhang, Shi-yang Zou, Jing Chen, and Shao-Ping Zhu, A demonstration of extracting the strength and wavelength of the magnetic field generated by the Weibel instability from proton radiography, High Power Laser Science and Engineering 7, 30 (2019).
16. WenShuai Zhang,Hongbo Cai*, Liulei Wei, Jianmin Tian, Shaoping Zhu*, "Enhanced ion acceleration in the ultra-intense laser driven magnetized collisionless shocks", New Journal of Physics, 21, 043026 (2019).
17. Liulei Wei,Hongbo Cai*, Wenshuai Zhang, Jianmin Tian, Enhao Zhang, JunXiong, Shaoping Zhu*, "Enhancement of high-energy electron yield by interaction of ultra-intense laser pulses with micro-structured foam target", Acta Phys. Sin. 68, 094101 (2019)(in Chinese).
18. W.S. Zhang,Hongbo Cai*, S.P. Zhu, " The formation and dissipation of electrostatic shock waves: The role of ion-ion acoustic instabilities", Plasma Physics and Controlled Fusion 60, 055001 (2018).
19. W.S. Zhang,Hongbo Cai*, L.Q. Shan, H.S Zhang, Y.Q Gu and S.P. Zhu*, "Anomalous neutron yield in indirect-drive inertial-confinement-fusion due to the formation of collisionless shocks in the corona", Nucl. Fusion 57,066012 (2017).
20. X.T. He*,Hongbo Cai* et al. , “Physical Studies of Fast ignition in China”, Plasma Phys. Controll. Fusion, 57, 064003 (2015).