苌磊 - 重庆大学 - 电气工程学院

个人简介

苌磊，安徽泗县人，副教授，博士生导师，中科院百人。长期从事等离子体基础物理及创新应用研究，主持了国家自然科学基金重大研究计划培育项目、国家自然科学基金国际(地区)合作与交流项目（2项）、国家自然科学基金青年项目、中科院重点部署项目（655万元）、中科院“百人计划”项目、中科院合肥区域中心创新项目、中央高校基本科研业务费——前沿科学与“卡脖子”技术研究专项（150万元）、中国博士后基金、重庆市基础科学和前沿技术研究专项等近20项，总经费约1500万元；作为骨干参与了国家磁约束核聚变能发展研究专项、国家重大科研仪器研制项目、国家自然科学基金面上项目等5项，总经费7700余万元；发表了SCI论文近50篇，其中一作或通讯30余篇，撰写专著2本；召集并组织了国际会议2次、国内会议3次，受邀做国际会议大会报告2次、邀请报告20余次，申请发明专利11项（授权5项）；入选中科院“百人计划”、合肥市高层次人才、重庆大学“小米青年学者”、国家公派留学基金访问学者等；担任中国宇航学会电推进专委会委员（连任2届）、全国直线等离子体装置组委会委员、亚太等离子体物理大会分论坛主席、亚洲等离子体科学与应用大会分论坛主席等；曾赴剑桥大学、牛津大学、帝国理工大学、意大利圣安娜高等研究院、德克萨斯大学奥斯汀分校、巴黎综合理工大学、约克大学、九州大学、香港城市大学等访问交流；是PRL、NF、PSST、PPCF、JAP、POP、PST、EPL、IEEE-TPS等20余本国际主流期刊的评审专家、国家自然科学基金等项目通讯评审专家以及等离子体物理、核聚变、电推进等方向的博士/硕士学位论文评审专家。

研究领域

等离子体基础物理及创新应用，具体包括螺旋波等离子体物理，磁约束核聚变物理，空间等离子体推进，微波与电离层相互作用等。 [1].螺旋波等离子体物理及应用 [2].磁约束核聚变等离子体物理 [3].空间电推进和等离子体环境模拟 [4].激光与等离子体相互作用 [5].强流相对论真空电子学 [6].开关电弧等离子体动力学 [7].等离子体流动控制及点火助燃 [8].其他等离子体交叉方向

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1].L. Chang*, R. Boswell, E. Scime, S. Shinohara, K. Takahashi, S. Thakur, F. Filleul, A. Caldarelli, S. Isayama, Y. Yu, M. Xu, H. B. Zhang, T. Y. Huang, M. Y. Wu, J. T. Wu, B. H. Xia, L. F. Lu, A. P. Sun, D. Du, Z. Y. Zhang, R. X. Yuan, A. D. Xu, X. Yang, D. Jing, Y. Xia, C. Wang, Y. W. Zhang, X. S. Wu, Z. Y. Yang,Y. Z. Sun, “Research progress and remarks on helicon plasma: a report on the Second Helicon Plasma Physics and Applications Workshop”, Review of Modern Plasma Physics 8: 32 (2024). [2].D. Jing, L. Chang*, X. Yang, Y. Xia, J. H. Zhang, H. S. Zhou, and G. N. Luo, “Exploration on the possible bump-on-tail instability on VASIMR”, Space: Science and Technology, 4: 0107 (2024). [3].Z. Li, L. F. Lu, L. Nie, L. Chang*, Z. D. Zeng, H. Q. Zhang*, “Development of a New High-Frequency B-Dot Probes to Detect Electromagnetic Characteristics of Helicon Wave Antenna in the Near Field”, IEEE Transactions on Instrumentation and Measurement 73: 8000107 (2024). [4].C. Wang, J. Liu, L. Chang*, L. F. Lu, S. J. Zhang, and F. T. Zhou, “Wave field structure and power coupling features of blue-core helicon plasma driven by various antenna geometries and frequencies”, Chinese Physics B 33: 035201 (2024). [5].J. H. Zhang, X. Yang*, L. Chang*, Y. Wang, Y. Xia, D. Jing, H. S. Zhou, and G. N. Luo, “A novel and efficient dual-antenna micro plasma thruster”, Acta Astronautica 208: 15-26 (2023) [6].L. P. Zhang, L. Chang*, X. G. Yuan, J. H. Zhang, H. S. Zhou, and G. N. Luo, “A RF plasma source with focused magnetic field for material treatment”, Plasma Chemistry and Plasma Processing 43: 329-345 (2023) [7].L. Chang*, J. F. Caneses, and S. C. Thakur, “Wave propagation and power deposition in blue-core helicon plasma”, Frontiers in Physics 10: 1009563 (2022) [8].L. Chang*, R. Boswell, and G. N. Luo, “First Helicon Plasma Physics and Applications Workshop”, Frontiers in Physics 9: 808971 (2022) [9].L. Chang*, H. J. Zhang, and W. X. Sima, “On the limit of minimum number and depth of periodic modulations for spectral gap formation via Bragg’s reflection”, EPL 127: 45003 (2019) [10].L. Chang*, “Alfvénic gap eigenmode in a linear plasma with ending magnetic throats”, Physics of Plasmas 25: 122503 (2018) [11].L. Chang*, B. N. Breizman*, and M. J. Hole*, “Gap eigenmode of radially localized helicon waves in a periodic structure”, Plasma Physics and Controlled Fusion 55: 025003 (2013) [12].L. Chang*, M. J. Hole, J. F. Caneses, G. Chen, B. D. Blackwell, and C. S. Corr, “Wave modeling in a cylindrical non-uniform helicon discharge”, Physics of Plasmas 19: 083511 (2012) [13].L. Chang*, M. J. Hole, and C. S. Corr, “A flowing plasma model to describe drift waves in a cylindrical helicon discharge”, Physics of Plasmas 18: 042106 (2011) [14].L. Chang*, Q. C. Li, H. J. Zhang, Y. H. Li, Y. Wu, B. L. Zhang, and Z. Zhuang, “Effect of radial density configuration on wave field and energy flow in axially uniform helicon plasma”, Plasma Science and Technology 18(8): 848-854 (2016) [15].L. Chang*, Y. H. Li, Y. Wu, H. J. Zhang, W. M. Wang, and H. M. Song, “Dynamic control of defective gap mode through defect location”, Plasma Science and Technology 18(1): 1-5 (2016) [16].L. Chang, J. Liu, X. G. Yuan, X. Yang, H. S. Zhou*, G. N. Luo, X. J. Zhang, Y. K. Peng, J. Dai, and G. R. Hang, “Helicon plasma in a magnetic shuttle”, AIP advances 10: 105114 (2020) [17].L. Chang*, X. Y. Hu, L. Gao, W. Chen, X. M. Wu, X. F. Sun, N. Hu, and C. X. Huang*, “Coupling of rf antennas to large volume helicon plasma”, AIP Advances 8: 045016 (2018) [18].L. Chang*, T. P. Zhang, X. Y. Hu, X. M. Wu, and X. F. Sun, “Plasma instability of magnetically enhanced vacuum arc thruster”, AIP Advances 9: 015328 (2019) (Editor’s Pick). [19].L. Chang*, “Preliminary computation of the gap eigenmode of shear Alfvén waves on LAPD”, Chinese Physics B 27: 125201 (2018) [20].L. Chang*, N. Hu, and Y. J. Yao, “Influence of number and depth of magnetic mirror on Alfvénic gap eigenmode”, Chinese Physics B 25(10): 105204 (2016) [21].L. Chang*, L. Duan, X. Y. Hu, J. Y. Yao, J. X. Hu, and N. Hu, “Research on plasma propulsion at Australian National University”, Journal of Propulsion Technology 39(3): 481-493 (2018) [22].L. P. Zhang, L. Chang*, X. G. Yuan, Y. J. Chang, J. H. Zhang, X. Yang, Y. Wang, H. S. Zhou, and G. N. Luo, “Coupling between multiple coaxial antennas surrounding a plasma column produced by helicon antenna”, Contributions to Plasma Physics e202200032 (2022) [23].T. P. Zhang, L. Chang*, X. Y. Hu, R. L. Wang, H. J. Zhang, X. M. Wu, X. F. Sun, and N. Hu, “Space-charge-limited current of vacuum arc thruster”, Contributions to Plasma Physics 60: e201900163 (2020) [24].R. L. Wang, L. Chang*, X. Y. Hu, L. L. Ping, N. Hu, X. M. Wu, J. Y. Yao, X. F. Sun, and T. P. Zhang, “The role of second-order radial density gradient for helicon power absorption”, Contributions to Plasma Physics 60: e201900032 (2019) [25].X. Y. Hu, L. Chang*, X. G. Yuan, X. Yang, Y. J. Chang, L. P. Zhang, H. S. Zhou, G. N. Luo, J. Dai, J. Liu, and G. R. Hang, “A novel antenna for sub-atmospheric radio‐frequency discharge”, Contributions to Plasma Physics 60: e202000003 (2020) [26].X. G. Yuan, L. Chang*, X. Y. Hu, X. Yang, H. S. Zhou, and G. N. Luo, “Concept of SUb-atmospheric Radio-frequency Engine (SURE) for near space environment”, IEEE Transaction on Plasma Science 48(12): 4326-4330 (2020) [27].Y. J. Chang, L. Chang*, X. G. Yuan, X. Yang, Q. Xu, Y. Wang, G. J. Niu, H. S. Zhou, and G. N. Luo, “Numerical study on the temporal evolution of a helicon discharge”, IEEE Transaction on Plasma Science 49(11): 3733-3744 (2021) [28].L. P. Zhang, X. Yang, L. Chang*, Q. Xu, H. S. Zhou, and G. N. Luo, “Research of thrust measurement for space electric propulsion”, Chinese Space Science and Technology 42(3): 25-38 (2022) [29].X. G. Yuan, L. Chang, X. Yang*, H. S. Zhou, and G. N. Luo, “On the heating mechanism of electron cyclotron resonance thruster immerged in a non-uniform magnetic field”, Plasma Science and Technology 22: 094003 (2020)

学术兼职

[1].2022.08-至今，全国直线等离子体装置会议组委会，委员 [2].2016.12-至今，中国宇航学会电推进专业委员会，委员