教育与工作经历:

l 2023.07—至今: 安徽师范大学物理与电子信息学院 | 讲师

l 2024.05—2024.07: Center for Exotic Nuclear Studies, Institute for Basic Science, South Korea | 访问学者

l 2018.09—2023.07: 北京大学物理学院, 粒子物理与原子核物理 | 博士

l 2014.09—2018.07: 北京邮电大学理学院, 应用物理学 | 本科

研究领域:

主要从事原子核结构的理论研究, 致力于发展相对论密度泛函理论, 重点关注奇特原子核的结构, 参与DRHBc原子核质量表合作组的国际合作.

研究成果: [详见 ResearchGate / ORCID]

[1] C. Pan, J. L. An, P. Ring, X. H. Wu, P. Papakonstantinou, M.-H. Mun, Y. Kim, S. S. Zhang* and K. Y. Zhang*, Prediction of deformed halo nuclei 43,45Si from multiple criteria based on structure and reaction analyses, Physics Letters B, 877, 140487 (2026) [Link; arXiv]

[2] C. Pan, K. Y. Zhang, S. Q. Zhang, and J. Meng*, Nuclear Mass Table with the Deformed Relativistic Continuum Density Functional Theory, in Akito Arima Memorial Volume, 193 (World Scientific, Singapore, 2025) [Link]

[3] C. Pan, Y. C. Yang, X. F. Jiang, X. H. Wu*, Exploratory study on the masses of odd-Z nuclei and r-process simulation based on the deformed relativistic Hartree-Bogoliubov theory in continuum, European Physical Journal A 61, 275 (2025) [Link; arXiv]

[4] K. Y. Zhang*, C. Pan*, and X. H. Wu*, Double magicity of 164Pb within the deformed relativistic Hartree-Bogoliubov theory in continuum, Physical Review C 112, L051303 (2025) [Link]

[5] C. Pan, J. Meng*, Charge radii and their deformation correlation for even-Z nuclei in deformed relativistic Hartree-Bogoliubov theory in continuum, Physical Review C 112, 024316 (2025) [Link; arXiv]

[6] 潘琮*, 张开元, 磁势对形变原子核晕现象的影响, 科学通报 70, 3348 (2025) [Link]

[7] C. Pan*, X.-H. Wu, Examination of Possible Proton Magic Number Z = 126 with the Deformed Relativistic Hartree-Bogoliubov Theory in Continuum, Particles 8, 2 (2025) [Link]

[8] Y. Y. Guo, T. Yu, X. H. Wu*, C. Pan*, and K. Y. Zhang, Nuclear mass predictions of the relativistic continuum Hartree-Bogoliubov theory with the kernel ridge regression. II. Odd-even effects, Physical Review C 110, 064310 (2024) [Link]

[9] C. Pan, K. Y. Zhang, S. Q. Zhang*, Nuclear magnetism in the deformed halo nucleus 31Ne, Physics Letters B 855, 138792 (2024) [Link; arXiv]

[10] K. Y. Zhang, C. Pan*, and S. Wang, Examination of the evidence for a proton halo in 22Al, Physical Review C 110, 014320 (2024) [Link; arXiv]

[11] K. Y. Zhang, C. Pan*, S. Y. Chen, Q. J. Luo, K. Y. Wu, Y. F. Xiang, Recent Progress on Halo Nuclei in Relativistic Density Functional Theory, Nuclear Physics Review 41, 191 (2024) [Link]

[12] P. Guo, C. Pan*, Y. C. Zhao, X. K. Du, and S. Q. Zhang*, Prolate-shape dominance in atomic nuclei within the deformed relativistic Hartree-Bogoliubov theory in continuum, Physical Review C 108, 014319 (2023) [Link]

[13] C. Pan, M.-K. Cheoun, Y.-B. Choi, J. M. Dong, X. K. Du, X.-H. Fan, W. Gao, L. S. Geng, E. J. Ha, X.-T. He, J. K. Huang, K. Huang, S. Kim, Y. Kim, C.-H. Lee, J. Lee, Z. P. Li, Z.-R. Liu, Y. M. Ma, J. Meng*, M.-H. Mun, Z. M. Niu, P. Papakonstantinou, X. L. Shang, C. W. Shen, G. F. Shen, W. Sun, X.-X. Sun, J. W. Wu, X. H. Wu, X. W. Xia, Y. J. Yan, T. C. Yiu, K. Y. Zhang, S. Q. Zhang, W. Zhang, X. Y. Zhang, Q. Zhao, R. Y. Zheng, and S.-G. Zhou (DRHBc Mass Table Collaboration), Deformed relativistic Hartree-Bogoliubov theory in continuum with a point-coupling functional. II. Examples of odd Nd isotopes, Physical Review C 106, 014316 (2022) [Link; arXiv]

[14] C. Pan, K. Y. Zhang, P. S. Chong, C. Heo, M. C. Ho, J. Lee, Z. P. Li, W. Sun, C. K. Tam, S. H. Wong, R. W.-Y. Yeung, T. C. Yiu, and S. Q. Zhang*, Possible bound nuclei beyond the two-neutron drip line in the 50≤Z≤70 region, Physical Review C 104, 024331 (2021) [Link; arXiv]

[15] C. Pan, K. Y. Zhang, and S. Q. Zhang*, Multipole expansion of densities in the deformed relativistic Hartree-Bogoliubov theory in continuum, International Journal of Modern Physics E 28, 1950082 (2019) [Link; arXiv]

[16] J.-H. Zhuang, Z.-H. Zhang*, Y.-Y. Wang, C. Pan, K.-Y. Zhang, H.-Y. Zhang, and Y. Sun, Ground-state properties of superheavy Z = 122 isotopes within the deformed relativistic Hartree-Bogoliubov theory in continuum, Chin. Phys. C, accepted (2026)

[17] K. Zhang, L. Li, J. Yan*, G. Ye, X. Wu, J-L An, S-S Zhang, C. Pan, and X.-X. Sun, Description of 29F and 31F Within the Deformed Relativistic Hartree-Bogoliubov Theory in Continuum, Particles 9, 36 (2026) [Link]

[18] P. Papakonstantinou, M. Mun, C. Pan, K. Zhang, Proton halo structures and 22Al, Physical Review C 112, 044301 (2025) [Link; arXiv]

[19] X. Qu, K. Chen, C. Pan, Y. Yu, K. Zhang*, Benchmarking nuclear energy density functionals with new mass data, Nuclear Science and Techniques, 36, 231 (2025) [Link; arXiv]

[20] 张开元*, 潘琮, 李璐璐, 孙向向, 张时声, A ≈ 40 质量区轴对称和三轴形变晕核的预言, 科学通报 70, 3338 (2025) [Link]

[21] K. Y. Zhang, C. Pan, X. H. Wu, X. Y. Qu, X. X. Lu*, G. A. Sun*, Selected advances in nuclear mass predictions based on covariant density functional theory with continuum effects, AAPPS Bulletin 35, 13 (2025) [Link]

[22] X. H. Wu*, C. Pan, Nuclear mass predictions with anisotropic kernel ridge regression, Physical Review C 110, 034322 (2024) [Link; arXiv]

[23] P. Guo, X. Cao, K. Chen, Z. Chen, M.-K. Cheoun, Y.-B. Choi, P.C. Lam, W. Deng, J. Dong, P. Du, X. Du, K. Duan, X. Fan, W. Gao, L. Geng, E. Ha, X.-T. He, J. Hu, J. Huang, K. Huang, Y. Huang, Z. Huang, K.D. Hyung, H.Y. Chan, X. Jiang, S. Kim, Y. Kim, C.-H. Lee, J. Lee, J. Li, M. Li, Z. Li, Z. Li, Z. Lian, H. Liang, L. Liu, X. Lu, Z.-R. Liu, J. Meng*, Z. Meng, M.-H. Mun, Y. Niu, Z. Niu, C. Pan, J. Peng, X. Qu, P. Papakonstantinou, T. Shang, X. Shang, C. Shen, G. Shen, T. Sun, X.-X. Sun, S. Wang, T. Wang, Y. Wang, Y. Wang, J. Wu, L. Wu, X. Wu, X. Xia, H. Xie, J. Yao, K.Y. Ip, T.C. Yiu, J. Yu, Y. Yu, K. Zhang, S. Zhang, S. Zhang, W. Zhang, X. Zhang, Y. Zhang, Y. Zhang, Y. Zhang, Z. Zhang, Q. Zhao, Y. Zhao, R. Zheng, C. Zhou, S.-G. Zhou, and L. Zou (DRHBc Mass Table Collaboration), Nuclear mass table in deformed relativistic Hartree-Bogoliubov theory in continuum, II: Even-Z nuclei, Atomic Data and Nuclear Data Tables 158, 101661 (2024) [Link; arXiv]

[24] X. H. Wu*, C. Pan, K. Y. Zhang, and J. Hu, Nuclear mass predictions of the relativistic continuum Hartree-Bogoliubov theory with the kernel ridge regression, Physical Review C 109, 024310 (2024) [Link]

[25] K. Y. Zhang, C. Pan, and S. Q. Zhang*, Optimized Dirac Woods-Saxon basis for covariant density functional theory, Physical Review C 106, 024302 (2022) [Link; arXiv]

[26] J. Z. Han, C. Pan, K. Y. Zhang, X. F. Yang, S. Q. Zhang, J. C. Berengut, S. Goriely, H. Wang, Y. M. Yu*, J. Meng*, J. W. Zhang*, and L. J. Wang*, Isotope shift factors for the Cd+ 5s 2S1/2 → 5p 2P3/2 transition and determination of Cd nuclear charge radii, Physical Review Research 4, 033049 (2022) [Link; arXiv]

[27] W. Sun, K. Y. Zhang, C. Pan, X. H. Fan, S. Q. Zhang, and Z. P. Li*, Beyond-mean-field dynamical correlations for nuclear mass table in deformed relativistic Hartree-Bogoliubov theory in continuum, Chinese Physics C 46, 064103 (2022) [Link]

[28] K. Y. Zhang, M.-K. Cheoun, Y.-B. Choi, P. S. Chong, J. M. Dong, Z. H. Dong, X. K. Du, L. S. Geng, E. J. Ha, X. T. He, C. Heo, M. C. Ho, E. J. In, S. Kim, Y. Kim, C.-H. Lee, J. Lee, H. X. Li, Z. P. Li, T. P. Luo, J. Meng*, M.-H. Mun, Z. M. Niu, C. Pan, P. Papakonstantinou, X. L. Shang, C. W. Shen, G. F. Shen, W. Sun, X.-X. Sun, C. K. Tam, Thaivayongnou, C. Wang, X. Z. Wang, S. H. Wong, J. W. Wu, X. H. Wu, X. W. Xia, Y. J. Yan, R. W.-Y. Yeung, T. C. Yiu, S. Q. Zhang, W. Zhang, X. Y. Zhang, Q. Zhao, and S.-G. Zhou (DRHBc Mass Table Collaboration), Nuclear mass table in deformed relativistic Hartree-Bogoliubov theory in continuum, I: Even-even nuclei, Atomic Data and Nuclear Data Tables 144, 101488 (2022) [Link; arXiv]

[29] K. Y. Zhang, X. T. He, J. Meng*, C. Pan, C. W. Shen, C. Wang, and S. Q. Zhang, Predictive power for superheavy nuclear mass and possible stability beyond the neutron drip line in deformed relativistic Hartree-Bogoliubov theory in continuum, Physical Review C 104, L021301 (2021) [Link; arXiv]

[30] 张开元, 潘琮, 张双全, 孟杰*, 基于形变相对论连续谱 Hartree-Bogoliubov 理论构建高精度原子核质量表, 科学通报, 66, 3561 (2021) [Link]

[31] K. Y. Zhang, M.-K. Cheoun, Y.-B. Choi, P. S. Chong, J. M. Dong, L. S. Geng, E. J. Ha, X. T. He, C. Heo, M. C. Ho, E. J. In, S. Kim, Y. Kim, C.-H. Lee, J. Lee, Z. P. Li, T. P. Luo, J. Meng*, M.-H. Mun, Z. M. Niu, C. Pan, P. Papakonstantinou, X. L. Shang, C. W. Shen, G. F. Shen, W. Sun, X.-X. Sun, C. K. Tam, Thaivayongnou, C. Wang, S. H. Wong, X. W. Xia, Y. J. Yan, R. W.-Y. Yeung, T. C. Yiu, S. Q. Zhang, W. Zhang, and S.-G. Zhou (DRHBc Mass Table Collaboration), Deformed relativistic Hartree-Bogoliubov theory in continuum with a point-coupling functional: Examples of even-even Nd isotopes, Physical Review C 102, 024314 (2020) [Link; arXiv]

学术活动:

[1] 2026.04 线上, The 9th International Workshop on DRHBc Mass Table. [会议信息]

(Online talk) Recent Progress on Halo Nuclei in DRHBc [报告内容]

[2] 2026.04 中国 郑州, 第二十届全国核结构大会. [会议信息]

相对论密度泛函理论研究晕核的近期进展

[3] 2026.04 中国 桂林, 广西师范大学物理科学与技术学院学术报告.

基于相对论密度泛函理论研究奇特原子核若干近期进展

[4] 2026.03 中国 瑞昌, 第十九届全国核物理大会. [会议信息]

丰中子硅同位素中的晕结构预言

[5] 2026.01 中国 蚌埠, 第三届安徽省核物理研讨会. [会议信息]

丰中子硅同位素中的晕结构预言

[6] 2025.12 中国 东莞, 第四届“粤港澳”核物理论坛. [会议信息]

形变晕核^43,45Si的微观预言

[7] 2025.11 中国 合肥, 安徽大学核与粒子物理 学术报告.

形变相对论连续谱 Hartree-Bogoliubov 理论对晕核的研究进展

[8] 2025.10 中国 洛阳, 第十五届“相对论密度泛函前沿论坛”. [会议信息]

基于相对论密度泛函理论研究电荷半径的形变关联

[9] 2025.10 中国 北京, International Symposium Commemorating the 40th Anniversary of the Halo Nuclei. [会议信息]

Prediction of deformed halo nuclei in neutron-rich silicon isotopes [报告内容]

[10] 2025.08 哈萨克斯坦 阿拉木图 (Almaty), 13th BLTP/JINR– ITP/CAS Joint Workshop on Physics of Strong Interacting Systems. [会议信息]

Nuclear radii of exotic nuclei in deformed relativistic Hartree-Bogoliubov theory in continuum

[11] 2025.05 韩国 大田 (Daejeon), The 29th International Nuclear Physics Conference (INPC 2025). [会议信息]

Nuclear radii of exotic nuclei in deformed relativistic Hartree-Bogoliubov theory in continuum [报告内容]

[12] 2025.04 中国 重庆, 西南理论物理中心“核物理前沿”区域研讨会. [会议信息]

形变相对论连续谱 Hartree-Bogoliubov 理论对奇特核半径的研究

[13] 2025.03 日本 神户 (Kobe), iTHEMS-RCNP Workshop: Third Workshop on Density Functional Theory (DFT2025). [会议信息]

Recent progress on exotic nuclei in relativistic density functional theory with deformation and continuum effects [报告内容]

[14] 2025.03 中国 香港, The 8th International Workshop on DRHBc Mass Table. [会议信息]

Charge radii and deformation correlation for even-Z nuclei in DRHBc theory

[15] 2025.01 中国 淮南, 第二届安徽省核物理研讨会. [会议信息]

形变相对论连续谱 Hartree-Bogoliubov 理论对奇特核半径的研究

[16] 2024.11 法国 奥赛 (Orsay), SSNET 2024 (International Conference on Shapes and Symmetries in Nuclei: from Experiment to Theory). [会议信息]

Recent Progress on Halo Nuclei in Deformed Relativistic Hartree-Bogoliubov theory in continuum [报告内容]

[17] 2024.10 中国 南京, 第十四期“相对论密度泛函前沿论坛”. [会议信息]

形变相对论连续谱 Hartree-Bogoliubov 理论的新进展及应用

[18] 2024.09 中国 贵阳, 贵州民族大学学术报告.

形变相对论连续谱 Hartree-Bogoliubov 理论对晕核的研究进展

[19] 2024.09 中国 重庆, 重庆大学西南理论物理中心“强子物理与原子核物理”系列报告. [会议信息]

形变相对论连续谱 Hartree-Bogoliubov 理论对晕核的研究进展

[20] 2024.09 中国 重庆, 西南大学学术报告.

形变相对论连续谱 Hartree-Bogoliubov 理论对晕核的研究进展

[21] 2024.07 韩国 首尔(Seoul), Seminar in OMEG, SSU. [报告信息]

Recent Progress on Halo Nuclei in Deformed Relativistic Hartree-Bogoliubov theory in continuum

[22] 2024.07 韩国 江陵 (Gangneung), The 7th workshop on nuclear mass table with DRHBc theory. [会议信息]

Progress Report for nuclear regions with (G5) $51 \leq Z \leq 59$ \& (G13) $124 \leq Z \leq 126$

[23] 2024.06 韩国 大田 (Daejeon), Seminar in IBS CENS. [报告信息]

Recent Progress on Halo Nuclei in Deformed Relativistic Hartree-Bogoliubov theory in continuum

[24] 2024.04 中国 瑞昌, 第十九届全国核结构大会. [会议信息]

形变晕核31Ne中的磁势效应

[25] 2024.01 中国 合肥, 第一届安徽省核物理研讨会: [会议信息]

奇特原子核中的磁势效应

[26] 2023.12 中国 贵阳, The 6th International Workshop on DRHBc Mass Table. [会议信息]

Progress Report for nuclear region with $51 \leq Z \leq 60$

[27] 2023.04 中国 天津, 第十二期“原子核物理中的协变密度泛函理论”讲习班.

基于形变相对论连续谱Hartree-Bogoliubov理论构建原子核质量表：奇质量核

[28] 2022.08 韩国 浦项(Pohang) & 线上, The 5th workshop on nuclear mass table with DRHBc theory. [会议信息]

(Online talk) Overview of the present progresses for DRHBc mass table

[29] 2022.08 中国 贵阳, 第十八届全国核结构大会.

基于形变相对论连续谱理论的原子核质量表：奇$A$核与奇奇核

[30] 2021.12 中国 北京 & 韩国 湖西(Hoseo), The 4th workshop on nuclear mass table with DRHBc theory. [会议信息]

DRHBc mass table calculations: Odd-$A$ and odd-odd nuclei

[31] 2021.04 中国 重庆, 第十一期“原子核物理中的协变密度泛函理论”讲习班. [会议信息]

中子滴线外可能的束缚原子核

[32] 2020.10 中国 北京, Workshop on Frontiers of Nuclear Structure and Nuclear Astrophysics and Toward PKU-UT Joint Research Center on Nuclear Physics.

Possible bound nuclei beyond the primary drip line

[33] 2020.08 韩国 釜山(Busan) & 线上, The 3rd workshop on nuclear mass table with DRHBc theory. [会议信息]

(Online talk) Progress on $52 \leq Z \leq 56$ region

[34] 2019.08 中国 北京, The 2nd workshop on nuclear mass table with DRHBc theory.

Convergence of Legendre expansion of densities in DRHBc theory

教学经历:

l 2026.02 — 2026.06: 原子核物理

l 2026.02 — 2026.06: 量子力学基础

l 2025.12 — 2026.06: 毕业论文 (指导 7 名本科生)

l 2025.09 — 2026.01: 大学物理实验

l 2025.09 — 2026.01: 普通物理

l 2025.02 — 2025.06: 量子力学基础

l 2025.02 — 2025.06: 普通物理实验

l 2025.02 — 2025.06: 原子核物理

l 2024.12 — 2025.06: 毕业论文 (指导 6 名本科生)

l 2024.09 — 2025.01: 大学物理实验

l 2024.09 — 2025.01: 普通物理

l 2024.02 — 2024.06: 原子核物理

l 2024.02 — 2024.06: 大学物理实验

l 2023.12 — 2024.06: 毕业论文 (指导 2 名本科生)

l 2023.09 — 2024.01: 大学物理实验

l 2020.02 — 2020.06: (北京大学) 量子力学B 承担助教 | 被评为“优秀助教”

公共服务与其他:

l Physical Review C, International Journal of Modern Physics E 等期刊的审稿人.

l 2020-2022年, 在 DRHBc 质量表合作组中, 负责计算程序的维护和数据分析, 并为合作者提供技术支持 (教程链接); 主持合作组每月一次的线上会议.

l 2019-2022年, 主持北京大学核物理与核天体物理团队每周一次的“质量小组讨论会”.

l 2019-2022年, 管理和维护北京大学核物理与核天体物理团队的公共服务器.