胡章虎
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个人信息Personal Information
副教授
博士生导师
硕士生导师
性别:男
毕业院校:大连理工大学
学位:博士
所在单位:物理学院
学科:等离子体物理
办公地点:大连理工大学厚义楼305室
电子邮箱:
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- [1].Hu, Zhang-Hu.胡章虎,王友年.IBMP3D: A particle-in-cell code for fast simulation of beam transport in plasmas[J],AIP ADVANCES,2025,15(4)
- [2].Hu, Zhang-Hu.胡章虎,王友年.Abnormal magnetic field topology in the beam-plasma instability driven by ion dynamics[J],PHYSICS OF PLASMAS,2024,31(12)
- [3]Wang, Guo-Dong.Cheng, Rui, Hu, Zhang-Hu, Zhang, Yan-Shi.Tao, Ke-Wei,Dong, Jun-Yu,Zhen, Lin-Hua,Wang, Zhao,Zhou, Ze-Xian,Shi, Lu-Lin,Chen, Yu-Peng,Zhang, Jin-Fu,Chen, Yan-Hong,Jin, Xue-Jian,Wu, Xiao-Xia,Lei, Yu,Wang, Yu-Yu,胡章虎,Zhang, Yan-Shi,Yang, Jie.Observation of the transverse modulation effect of two-stream instability on low-energy proton beam in low-density plasma[J],PHYSICAL REVIEW E,2025,112(4)
- [4]Lan, JieJie.Hu, Zhang-Hu.胡章虎,王友年.Accelerating and guiding of electron beams in a cone target filled with near-critical-density plasmas[J],CHINESE PHYSICS B,2025,34(12)
- [5].Zhang-Hu Hu.胡章虎,王友年.Accelerating and guiding of electron beams in a cone target filled with near-critical-density plasmas[J],CHINESE PHYSICS B,2025,34(12)
- [6]刘一诺.胡章虎,王友年.蓝婕婕,李浩源,徐汪文.A photon-photon collider based on synchrotron γ rays in hollow plasma channels[J],MATTER AND RADIATION AT EXTREMES,2025,10(5)
- [7]徐汪文.胡章虎,王友年.李浩源,蓝婕婕.Two-stage linear filamentation growth of laser-produced proton beams in dense plasmas[J],PHYSICAL REVIEW E,2025,112(3)
- [8]Wang, X. J..Yu, M. Y.,Cao, L. F.,Zhou, C. T.,Ruan, S. C.,Peng, H.,Huang, T. W.,胡章虎,Li, R.,Jiang, K.,Li, D. K.,Yu, J.,Ye, H. X..Three-dimensional nanoscale microbunching of relativistic electron beam via plasma wakefield for coherent EUV radiation[J],MATTER AND RADIATION AT EXTREMES,2025,10(5)
- [9]蓝婕婕.Zhao, Yong-Tao,Zhang, Zi-Min,王友年,Zhao, Quan-Tang,胡章虎,Ran, Zhao-Hui,Li, Jia,Cao, Shu-Chun,Cheng, Rui.徐汪文,李浩源.High-energy electron radiography system with low chromatic aberrations based on active plasma lenses[J],PHYSICAL REVIEW APPLIED,2024,22(3)
- [10]徐汪文.Hui, De-Xuan,胡章虎.Enhanced energy deposition of laser-produced proton beams in high-density plasmas due to beam density self-steepening[J],PHYSICS OF PLASMAS,2024,31(9)