赵永涛 - 西安交通大学

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赵永涛博士教授博士生导师收藏完善纠错
西安交通大学物理学院
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个人简介

教育及工作经历 2015年-至今：西安交通大学理学院，教授，博士生导师，理学院副院长（2018年起） 2009-2015年：中国科学院近代物理研究所副研究员，研究员，等离子体物理组组长 2007-2009年：德国亥姆霍兹学会重离子研究中心等离子体组，博士后，访问学者 2006-2007年：中国科学院近代物理研究所，青年物理研究室，助理研究员 2003-2006年：中国科学院近代物理研究所，粒子物理与原子核物理专业，理学博士 2000-2003年：西安交通大学理学院，理论物理专业，理学硕士 1996-2000年：西安交通大学理学院，光电子应用物理专业，理学学士其他： 2018.3-至今中国物理学会等离子体物理分会，理事 2016.5-至今中国科学技术协会第九届全国代表大会，代表 2015.8-至今《Matter and Radiaation at Extremes》期刊编委会，委员 2014.1-至今中国科学院近代物理研究所第十二届学位委员会，委员 2013.8-至今中国物理学会高能量密度物理专业委员会，委员 2012.8-至今重离子束驱动惯性约束聚变HIF（Heavy-ion Inertial Fusion）国际会议国际组委会委员，兼第20届会议主席 2011.3-2013.8第27-28届大型国际学术会议ICPEAC（光子、电子、原子碰撞国际会议）国际执行委员会委员，兼第28届当地组委会副主席 2009.1-至今德国国际大科学工程FAIR高能量密度物理国际合作委员会，委员。主要业绩 l主持科技部重点研发计划“大科学装置前沿科学”重点专项项目，针对高功率离子束驱动高能量密度物理开展理论数值模拟以及超高时空分辨高能电子透射成像技术开展前沿研究； • •l 承担国防科工局基础科学科研挑战计划高能量密度科学领域课题任务1项，利用星光装置开展了激光加速准单能强流离子束在稠密等离子体中的能损与输运性质研究； • •l 主持国家自然科学基金大科学工程装置联合重点项目1项，搭建了离子束与等离子体相互作用实验平台，研究了中低能区离子在等离子体中能损、电荷演化及其输运过程； • •l 负责搭建了高电荷态离子与固体表面相互作用实验平台，系统研究了高电荷态离子在固体表面诱发的可见光，X射线，二次电子发射以及表面结构和形貌变化（离子束刻蚀）等，研究了离子束在微孔箔中的导向效应。 • •l 在西安交通大学自主创新能力建设等项目支持下，负责搭建了西安交通大学400kV高压离子加速器平台，推动现代加速器在等离子体物理、放射医疗、材料辐照与微纳加工等领域的应用。 • •l 上述工作在Phys. Rev. Lett.， Phys. Rev. A等学术期刊发表SCI论文100余篇，其中第一作者和通讯作者70余篇；20余次受邀在相关国际学术会议做口头报告科研项目离子束驱动高能量密度物质状态演化及超高时空分辨电子透射成像研究科技部重点研发计划项目纵向项目项目负责人第23届重离子驱动惯性约束聚变国际会议国家自然科学基金国际合作与交流项目纵向项目项目负责人基于强激光的温稠密物质产生及其辐射特性研究国家重点实验室开放基础研究课题纵向项目项目负责人创新型聚变前沿国际学术交流会国际原子能委员会IAEA 横向项目项目负责人高能量密度科学领域挑战计划国防科工局基础科研科学挑战计划项目纵向项目课题负责人中低能区离子束在等离子体中的能损及其激发的尾场国家自然科学基金委联合重点项目纵向项目负责人重离子束驱动的高能量密度物理及惯性约束聚变中科院人才项目纵向项目负责人 KeV/u重离子与全电离气体放电等离子体相互作用研究国际基金委面上项目纵向项目负责人高能强流重离子束在物质中的电荷态分布及能损国际基金委面上项目纵向项目负责人高能电子4D成像新技术及其在聚变流体物理中的应用创新型人才国际合作培养项目纵向项目负责人重离子在等离子体中的能损及电荷效应研究国际（地区）合作与交流项目纵向项目负责人第20届重离子驱动惯性约束聚变国际会议国际（地区）合作与交流项目纵向项目负责人 keV高荷电离子与高温环境壁材料作用的电子发射研究国际基金委面上项目纵向项目主要参加者离子束在等离子体中聚焦效应创新群体子课题纵向项目任务负责人重离子在气体中的能损实验研究中国工程物理研究院专项基金横向项目负责人高能离子束与物质相互作用的微观机理研究国家重大研究计划973子课题纵向项目主要参加者用于高能量密度物态诊断的新型高能电子成像技术国际基金委重点项目纵向项目参加者超快多路温度计的新设计国际基金委青年基金纵向项目参加者利用量热法研究高电荷态离子在物质中的势能沉积国际基金委青年基金纵向项目参加者关联法研究高电荷态离子在表面的瞬间能量沉积过程国际基金委面上项目纵向项目参加者载能团离子束与等离子体相互作用的非线性机理研究国际基金委面上项目纵向项目参加者 keV 高荷电离子与高温环境下壁材料作用的电子发射国际基金委面上项目纵向项目参加者离子诱导产生纳米结构的物理机制国际（地区）合作与交流项目纵向项目参加者

研究领域

一、基于现代加速器和强激光的聚变科学 1. 离子束驱动高能量密度物理 2. 离子束在等离子体中的能损与输运 3. 超高时空分辨透射成像和等离子体光谱诊断二、原子与分子物理、低能核物理 1. 离子与原子分子碰撞、电荷交换及光谱分析 2. 高电荷态离子物理，微纳离子束 3. 氢硼聚变，极端条件下的低能核反应三、激光粒子束科学技术及其应用 1. 加速器辐照装置及辐照技术研发：辐照交联、固化、消毒、废污处理、脱硫脱硝等 2. 静电型加速器中子俘获治疗装置BNCT，质子重离子刀 3. 微纳离子束微区分析与加工，同位素分析/分离技术

近期论文

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[1] Jieru Ren, Dong Wu, Dieter H.H. Hoffmann, Dahui Wang, Yongtao Zhao*, Effects of resistive magnetic instability and electron refluxing on fast electron dynamics and bremsstrahlung radiation characteristics in relativistic laser-solid interaction. Plasma Physics and Controlled Fusion 61, 095016(2019). [2] Zheng Zhou, Yu Fang,Han Chen, Yipeng Wu,Yingchao Du, Zimin Zhang,Yongtao Zhao,Ming Li, Chuanxiang Tang, and Wenhui Hu, Visualizing the melting processesin ultrashort intense laser triggered gold mesh with high energy electron radiography, Matter Radiat. Extremes 4 65402(2019). [3] Lin Zhang, Yongtao Zhao*, Jieru Ren, Jianxing Li, Wei Liu, Dong Wu, Rui Cheng, Guoqing Xiao, Dieter H.H. Hoffmann, Zhongfeng Xu, Warm-Dense-Matter State of Iron Generated by Intense Heavy-Ion Beams, IEEE Transactions on Plasma Science 47, 853-857 (2019). [4] D. Wu*, W. Yu, Y. T. Zhao*, D. H. H. Hoffmann, S. Fritzsche, and X. T. He, Particle-in-cell simulation of transport and energy deposition of intense proton beams in solid-state materials, Phys. Rev. E 100, 013208 (2019). [5] S.D.Liu, N.Stolterfoht and Y.T.Zhao, Simulated transmission of 1-MeV proton microbeam through an insulating macro-capillary, Nuclear Instruments and Methods B, 458, 28 (2019) [6] Xianming Zhou, Rui Cheng, Yongtao Zhao, Yuyu Wang, Yu Lei, Yanhong Chen, Xinwen Ma & Guoqing Xia, Multiple ionization state of Ar q+ ions during collisions near the Bohr velocity, Scientific Reports 9(1), 5359 (2019). [7] De-Xuan Hui, Zhang-Hu Hu, Yong-Tao Zhao, Rui Cheng, Xian-Xiu Mei and You-Nian Wang, Modulation of ion beams in two-component plasmas: Three-dimensional particle-in-cell simulation, Physics of Plasmas 26, 093104 (2019) [8] Yan-Fei Li, Jian-Xing Li*, Karen Z. Hatsagortsyan*, Yong-Tao Zhao*, Bo Zhang, Yu-Tong Li, Yang-Yang Liu, Ze-Long Zhang, Zhong-Feng Xu, and Christoph H. Keitel, Determining the carrier-envelope phase of relativistic laser pulses via electron-momentum distribution, Physical Review A, 99, 013850 (2019). [9] Zhongfeng Xu, Pengfei Hu, Enliang Wang, Shenyue Xu, Xing Wang, Yongtao Zhao, Jingkang Deng, Chuangang Ning, and Xueguang Ren, Experimental and theoretical study of valence electronic structure of tetrabromomethane by e-2e electron momentum spectroscopy, Phys. Rev. A 99, 062705 (2019) [10] Ying Zhang, Zhongfeng Xu, Yongtao Zhao & Xiaoan Zhang, Ab initio Molecular Dynamics Simulation Study of Dissociation Electron Attachment to Lactic Acid and Isomer, Scientific Reports 9(1), 19532(2019). [11] Shenyue Xu, Chao Ma, Enliang Wang, Pengfei Hu, Xing Wang, Yongtao Zhao, Zhongfeng Xu, Jingkang Deng, Chuangang Ning, Alexander Dorn, and Xueguang Ren, Observation of strong relativistic and distorted-wave effects in (e,2e) electron-momentum spectroscopy of mercury, Phys. Rev. A 99, 022705 (2019) [12] Jieru Ren, Yongtao Zhao*, Lasrs Bozyk, et al, Intense heavy ion beam-induced material evaporation ad the resulting dunamic vacuum deterioration of the beam line, Nuclear Instruments and Methods B, 429, 48 (2018). [13] Lin Zhang, Yong-Tao Zhao, Jie-Ru Ren, Dong Wu, Wei Liu, Guan-Song Feng, Wen-Cai Ma, Rui Cheng, Guo-Qing Xiao, Dieter H. H. Hoffmann and Zhong-Feng Xu, Two dimensional hydrodynamic simulations of metal targets under irradiation of intense proton beams: Effects of target materials[J]. Physics of Plasmas, 2018, 25(11): 113108 [14] J. Ren, C. Maurer, P. Katrik, P.M. Lang, A.A. Golubev, V. Mintsev, Y. Zhao and D.H.H. Hoffmann, Accelerator‐driven high‐energy‐density physics: Status and chances, Contributions to Plasma Physics, 58, 82-92, (2018). [15] Xiao-Juan Wang, Zhang-Hu Hu, Yong-Tao Zhao and You-Nian Wang, Modulation of proton beams by relativistic electron beam-plasma instability, Physics of Plasmas 25, 102104 (2018) [16] Yan-Fei Li, Yong-Tao Zhao, Karen Z. Hatsagortsyan, Christoph H. Keitel, and Jian-Xing Li*, “Electron-angular-distribution reshaping in the quantum radiation-dominated regime”, Physical Review A, 98, 052120 (2018). [17] Xiao-ying Zhao, Xin Qi, Lei Yang, Yong-tao Zhao and Jian Shi, The correlation effects on the wake field and stopping power for two ion-beam pulses moving in a background plasma, Physics of Plasmas 25, 093107 (2018) [18] Zhao Q T; Cao S C; Cheng R; Du Y C; Shen X K; Wang Y R; Xiao J H; Zong Y; Zhu Y L; Zhou Y W; Zhao Y T; Zhang Z M and Gai W, Generation of uniform transverse beam distributions for high-energy electron radiography, Laser and Particle Beams, 2018.9, 36(3): 313~322 [19] Ge Xu,* M. D. Barriga-Carrasco， A. Blazevic,5 B. Borovkov, D. Casas, K. Cistakov, R. Gavrilin, M. Iberler, J. Jacoby, G. Loisch, R. Morales, R. Mäder, S.-X. Qin, T. Rienecker, O. Rosmej, S. Savin, A. Schönlein, K. Weyrich, J. Wiechula, J. Wieser, G. Q. Xiao, and Y. T. Zhao， Determination of Hydrogen Density by Swift Heavy Ions, Physics Review Letter, 119, 204801 (2017). [20] Jiru Ren, Yongtao Zhao, Rui Cheng et al, Hydrodynamic response of solid target heated by intense heavy ion beam from future facility HIAF, Nuclear Instruments and Methods B, 406, 703 (2017) [21] Zhang-Hu Hu, Xiao-Juan Wang, Yong-Tao Zhao and You-Nian Wang, Double-ring structure formation of intense ion beams with finite radius in a pre-formed plasma, Physics of Plasmas 24, 123103 (2017) [22] Ren J, Zhao Y, Cheng R, et al. Hydrodynamic response of solid target heated by heavy ion beams from future facility HIAF. Nuclear Instruments & Methods in Physics Research, 2017, 406. [23] Wang X J, Hu Z H, Zhao Y T, et al. Double-ring structure formation of intense ion beams with finite radius in a pre-formed plasma, Physics of Plasmas，2017，24. [24] Xianming Zhou, Lixia Zeng, Rui Cheng, Yu Lei, Yanhong Chen, Zhongfeng Xu, Ximeng Chen, Yuyu Wanga, Yongtao Zhao, Guoqing Xiao, X-ray and kinetic electron emission by keV proton impacting on fusion-relevant tungsten, Nuclear Instruments & Methods in Physics Research, 2017, 406. [25] Xianming Zhou, Rui Cheng, Yuyu Wanga, Yu Lei, Yanhong Chen, Ximeng Chen, Yongtao Zhao, Guoqing Xiao, L x-ray production in ionization of 60 Nd by 100–250 keV protons, Nuclear Instruments & Methods in Physics Research, 2017. [26] Lixia Zeng, Xianming Zhou, Rui Cheng, Xing Wang, Jieru Ren, Yu Lei, Lidong Ma,Yongtao Zhao, Xiaoan Zhang & Zhongfeng Xu, Temperature and energy effects on secondary electron emission from SiC ceramics induced by Xe17+ ions, Scientific Reports, 2017, 7(1):6482. [27] 赵永涛, 肖国青, 李福利. 基于现代加速器的惯性约束聚变物理研究现状及发展, 物理, 2016, 45(2):98-107. [28] Zhao Y, Zhang Z, Gai W, et al. High energy electron radiography scheme with high spatial and temporal resolution in three dimension based on a e-LINAC. Laser & Particle Beams, 2016, 34(2):338-342. [29] Lei Y, Zhao Y, Zhou X, et al. K-shell X-ray production in Silicon (Z2 = 14) by (1 ⩽ Z1 ⩽ 53) slow ions, Nuclear Inst & Methods in Physics Research B, 2016, 370:10-13. [30] Boris Yu. Sharkov, Dieter H.H. Hoffmann*, Alexander A. Golubev, Yongtao Zhao. High energy density physics with intense ion beams, Matter & Radiation at Extremes, 2016, 1(1):28-47. [31] Zhao X Y, Xu H P, Zhao Y T, et al. Beam Velocity and Density Influences on Ion-Beam Pulses Moving in Magnetized Plasmas, IEEE Transactions on Plasma Science, 2016, 44(8):1405-1410. [32] Ren J, Zhao Y, Zhou X, et al. Charge-state dependence of inner-shell processes in collisions between highly charged Xe ions and solids at intermediate energies, Physical Review A, 2015, 92(6). [33] Liu S D, Wang Y Y, Zhao Y T, et al. Double-peak structures in transmission of H2+ ions through conical multicapillaries in a polymer: Projectile-energy dependence, Physical Review A, 2015, 91(1). [34] Xianming Zhou, Rui Cheng, Yu Lei, Yuanbo Sun, Jieru Ren, Shidong Liu, Jiachuan Deng, Yongtao Zhao*, Guoqing Xiao, Ionization of highly charged iodine ions near the Bohr velocity, Nuclear Instruments & Methods in Physics Research, 2015, 342(13):133-136. [35] Y. Y. Wang, C. Grygie, C. Dufour, J. R. Sun, Z. G. Wang1, Y. T. Zhao, G. Q. Xiao, R. Cheng, X. M. Zhou, J. R. Ren, S. D. Liu, Y. Lei, Y. B. Sun, R. Ritter, E. Gruber, A. Cassimi, I. Monnet, S. Bouffard, F. Aumayr & M. Toulemonde, Energy deposition by heavy ions: additivity of kinetic and potential energy contributions in hillock formation on CaF2, Scientific Reports, 2014, 4:5742. [36] Xianming Zhou, Rui Cheng, Yu Lei, Yuanbo Sun, Jieru Ren, Shidong Liu, Jiachuan Deng, Yongtao Zhao*, Guoqing Xiao, Ionization of highly charged iodine ions near the Bohr velocity, Nuclear Instruments & Methods in Physics Research, 2015, 342(13):133-136. [37] Sheng L, Zhao Y, Yang G, et al. Heavy-ion radiography facility at the Institute of Modern Physics, Laser & Particle Beams, 2014, 32(4):651-655. [38] Yongtao, Zhao, Cheng, et al. High energy density physics research at IMP,Lanzhou, China, High Power Laser Science and Engineering, 2014, 2(4). [39] Hongwei Hu, Yongtao Zhao, Zhen Li, Fuli Li, Chenzhong Dong, Xianming Zhou, Wencong Chen and Peng Li, Radiative transitions of excited ions moving slowly in plasmas, Physics of Plasmas 21, 122113 (2014) [40] Zhou X, Cheng R, Lei Y, et al. Ionization of Ar 11+, ions during collisions near the Bohr velocity, Nuclear Instruments & Methods in Physics Research, 2014, 340(13):11-14.

学术兼职

中国物理学会等离子体物理分会理事高能量密度物理专业委员会委员 Matter and Radiation at Extremes期刊编委中国科学院人才项目入选者西安交通大学青年拔尖人才入选者中国科协第九届全国代表大会代表

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