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师资队伍

苌 磊

苌 磊

学历:博士

职称:副教授,博导/硕导

邮箱:leichang@cqu.edu.cn

研究方向: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。
  • 个人简介
  • 人才培养
  • 科学研究
  • 学术兼职

个人简介:

2003-2007,北京理工大学,本科,电子科学与技术(光电子方向)

2007-2013,国防科技大学,硕博连读,电子科学与技术(物理电子学)

2009-2014,澳大利亚国立大学,博士,物理学(等离子体物理)

苌磊,1984.10,安徽泗县人,副教授,博士生导师,中科院“百人计划”。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计划培育项目、国家自然科学基金青年项目、中科院重点部署项目、中科院“百人计划”、中科院合肥区域中心仪器设备功能开发技术创新项目、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、中国博士后基金、重庆市留学人员回国创业创新支持计划(重点)、重庆市基础科学和前沿技术研究专项等16项,总经费1300万元;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7700万元;发表了SCI论文40余篇,其中一作或通讯25篇;组织国际会议1次,参加国际会议并作邀请报告20余次申请发明专利9项;担任中国宇航学会电推进专委会委员(2016.12-)、全国直线等离子体装置组委会委员2022.08-、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、亚洲推进与动力联合会议分论坛主席等;曾赴德克萨斯大学奥斯汀分校、巴黎综合理工大学、约克大学、诺丁汉大学、九州大学等访问交流,获批国家公派留学基金委公派研究生访问学者1项NF、PSST、PPCF、JAP、POP、PST、EPL、IEEE-TPS等国际期刊的评审专家;指导了硕士研究生10名、博士生5名(3名留学生),讲授本科生课程3门、研究生课程3门,承担教改项目3项。

欢迎数学、物理、电气、能动机械、计算机等专业学生报考硕士及博士研究生,共同开展等离子体基础物理及创新应用研究


讲授课程:

1.本科生课程:《信号与系统》

2.研究生课程:《多物理场分析与计算》

 

研究方向:

1.螺旋波等离子体物理

2.磁约束核聚变物理

3.空间等离子体推进

4.微波与电离层相互作用

科研项目:

1.国家自然科学基金重大研究计划培育项目,92271113,“基于可变比冲磁等离子体火箭的电磁力热多物理场环境地面模拟与测量研究”,2023.01-2025.12,104万元,主持,在研

2.中央高校基本科研业务费前沿科学与“卡脖子”技术研究子项,2022CDJQY-003,“等离子体光纤概念探索研究”,2022.05-2025.04,150万元,主持,在研;

3.重庆市留学人员回国创业创新支持计划(重点),CX2022004,“蓝芯模式螺旋波等离子体的形成机理研究”,2022.08-2024.07,12万元,主持,在研

发表论文:

1.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)

2.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)

3.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)

4.L. Chang*, R. Boswell, and G. N. Luo, “First Helicon Plasma Physics and Applications Workshop”, Frontiers in Physics 9: 808971 (2022)

5.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)

6.L. Chang*, “Alfvénic gap eigenmode in a linear plasma with ending magnetic throats”, Physics of Plasmas 25: 122503 (2018)

7.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)

8.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)

9.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)

10.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)

11.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)

12.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)

13.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)

14.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).

15.L. Chang*, “Preliminary computation of the gap eigenmode of shear Alfvén waves on LAPD”, Chinese Physics B 27: 125201 (2018)

16.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)

17.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)

18.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)

19.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)

20.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)

21.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)

22.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)

23.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)

24.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)

2022.08-至今,全国直线等离子体装置会议组委会,委员

2016.12-至今,中国宇航学会电推进专业委员会,委员