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张宸，男，出生于1988年8月，江苏南京人，东北大学理学院物理系副教授（宇宙学团队）。研究方向为粒子物理与宇宙学。

 

电子邮件：zhangchen2@mail.neu.edu.cn

Inspirehep主页：https://inspirehep.net/authors/1388137

ORCID: 0000-0003-2649-8508

所属团队：辽宁省宇宙学与天体物理重点实验室（参考http://faculty.neu.edu.cn/zhangxin1/zh_CN/index/112320/list/index.htm）。

 

教育与工作经历：

2011年7月本科毕业于北京大学物理学院，获理学学士学位。

2017年7月博士毕业于北京大学物理学院理论物理专业，获理学博士学位。

2017年9月-2020年9月于中国台湾清华大学从事博士后研究。

2021年4月-2022年3月于意大利国家核物理研究院佛罗伦萨分部(INFN Florence)从事博士后研究。

2022年8月入职东北大学理学院任海外百人青年特聘副教授。

 

教学工作：负责本科生专业方向类课程《核物理与粒子物理导论》教学、研究生《量子场论》课程教学。

 

研究工作：在粒子物理、量子场论和宇宙学领域完成了一些工作。论文列表如下：

[21] N. Jia, S.-S. Bao, C. Zhang, H. Zhang, X. Zhang, Superradiant dark matter production from primordial black holes: Impact of multiple modes and gravitational wave emission, JHEP 09 (2025) 195, arXiv: 2504.18935.

[20] C. Zhang, S.-H. Zhang, B. Fu, J.-F. Zhang, X. Zhang, On the cosmological abundance of magnetic monopoles, JHEP 08 (2024) 220, arXiv: 2404.04926.

[19] C. Zhang, X. Zhang, Magnetic monopole meets primordial black hole: an extended analysis, Eur. Phys. J. C 84, 100 (2024), arXiv: 2308.07166.

[18] C. Zhang, X. Zhang, Gravitational capture of magnetic monopoles by primordial black holes in the early universe, JHEP 10 (2023) 037, arXiv: 2302.07002.

[17] M. Reichert, F. Sannino, Z.-W. Wang, C. Zhang, Dark confinement and chiral phase transitions: gravitational waves vs matter representations, JHEP 01 (2022) 003, arXiv: 2109.11552.

[16] O. Antipin, J. Bersini, F. Sannino, Z.-W. Wang, C. Zhang, More on the weak gravity conjecture via convexity of charged operators, JHEP 12 (2021) 204, arXiv: 2109.04946.

[15] O. Antipin, J. Bersini, F. Sannino, Z.-W. Wang, C. Zhang, More on the cubic versus quartic interaction equivalence in the O(N) model, Phys. Rev. D 104 (2021) 085002, arXiv: 2107.02528.

[14] O. Antipin, J. Bersini, F. Sannino, Z.-W. Wang, C. Zhang, Untangling scaling dimensions of fixed charge operators in Higgs theories, Phys. Rev. D 103 (2021) 12, 125024, arXiv: 2102.04390.

[13] O. Antipin, J. Bersini, F. Sannino, Z.-W. Wang, C. Zhang, Charging non-Abelian Higgs theories, Phys. Rev. D 102 (2020) 12, 125033, arXiv: 2006.10078.

[12] G. Cacciapaglia, S. Vatani, C. Zhang, Techni-Pati-Salam composite Higgs model, Phys. Rev. D 103 (2021) 055001, arXiv: 2005.12302.

[11] O. Antipin, J. Bersini, F. Sannino, Z.-W. Wang, C. Zhang, Charging the O(N) model, Phys. Rev. D 102 (2020) 4, 045011, arXiv: 2003.13121.

[10] G. Cacciapaglia, S. Vatani, C. Zhang, Composite Higgs meets Planck scale: Partial compositeness from partial unification, Phys. Lett. B 815 (2021) 136177, arXiv: 1911.05454.

[9] K. Cheung, W.-Y. Keung, Y.-n. Mao, C. Zhang, Constraining CP-violating electron-gluonic operators, JHEP 07 (2019) 074, arXiv: 1904.10808.

[8] K. Cheung, S.-P. He, Y.-n. Mao, P.-Y. Tseng, C. Zhang, Phenomenology of a little Higgs pseudoaxion, Phys. Rev. D 98 (2018) 7, 075023, arXiv: 1809.03809.

[7] K. Cheung, S.-P. He, Y.-n. Mao, C. Zhang, Y. Zhou, Simplest little Higgs model revisited: Hidden mass relation, unitarity, and naturalness, Phys. Rev. D 97 (2018) 11, 115001, arXiv: 1801.10066.

[6] S.-P. He, Y.-n. Mao, C. Zhang, S.-h. Zhu, ZHη vertex in the simplest little Higgs model, Phys. Rev. D 97 (2018) 7, 075005, arXiv: 1709.08929.

[5] G. Li, Y.-n. Mao, C. Zhang, S.-h. Zhu, Testing CP violation in the scalar sector at future e⁺e^- colliders, Phys. Rev. D 95 (2017) 3, 035015, arXiv: 1611.08518.

[4] S, Liu, Y.-L. Tang, C. Zhang, S.-h. Zhu, Exotic Higgs decay h→φφ→4b at the LHeC, Eur. Phys. J. C 77 (2017) 7, 457, arXiv: 1608.08458.

[3] G. Li, Y.-n. Mao, Y.-L. Tang, C. Zhang, Y. Zhou, S.-h. Zhu, Pseudoscalar Decaying Only via Loops as an Explanation for the 750 GeV Diphoton Excess, Phys. Rev. Lett. 116 (2016) 15, 151803, arXiv: 1512.08255.

[2] Y.-L. Tang, C. Zhang, S.-h. Zhu, Invisible Higgs decay at the Large Hadron-Electron Collider, Phys. Rev. D 94 (2016) 1, 011702, arXiv: 1508.01095.

[1] Q.-H. Cao, B. Yan, J.-H. Yu, C. Zhang, A general analysis of Wtb anomalous couplings, Chin. Phys. C 41 (2017) 6, 063101, arXiv: 1504.03785.