用户:韩志龙

基本信息

副教授，校聘A2岗，研究方向为粒子物理（理论）。

邮件 sps_hanzl@ujn.edu.cn。

研究方向

1. 中微子模型构建与唯象研究
2. 暗物质相关模型的唯象研究
3. 新物理现象的理论解释

科研项目(主持)

1. 含暗物质的中微子质量模型及唯象学研究，国家自然科学基金，2019-2021
2. 中微子质量辐射产生机制及其唯象学，山东省自然科学基金，2019-2022

已发论文列表

高能物理数据库Inspire-hep上的文章列表

1. X. H. Bai, Z. L. Han, Y. Jin, H. L. Li, Z. X. Meng, Same-Sign Tetralepton Signature in Type-II Seesaw at Lepton Colliders, Chin.Phys.C 46 (2022) 12, 012001
2. Z. F. Chang, Z. X. Chen, J. S. Xu, Z. L. Han, FIMP Dark Matter from Leptogenesis in Fast Expanding Universe, JCAP 06, 006 (2021)
3. F. X. Yang, Z. L. Han, Y. Jin, Same-Sign Dilepton Signature in the Inert Doublet Model, Chin.Phys.C 45 (2021) 7, 073114
4. S. Y. Guo, Z. L. Han, Observable Signatures of Scotogenic Dirac Model, JHEP 12, 062 (2020)
5. Ang Liu, Z.L. Han, Yi Jin, Fa-Xin Yang, Leptogenesis and dark matter from a low scale seesaw mechanism, Phys. Rev. D101, 9, 095005 (2020)
6. W J. Wang, Z. L. Han, $ U(1)_{B-3L_\alpha} $ extended scotogenic models and single-zero textures of neutrino mass matrices, Phys. Rev. D101, 11, 115040 (2020)
7. Z. L. Han, R. Ding, S. J. Lin, B. Zhu, Gauged $ U(1)_{L_\mu -L_\tau } $ scotogenic model in light of $ R_{K^{(*)}} $ anomaly and AMS-02 positron excess, Eur. Phys. C79, 12, 1007 (2019)
8. Z. L. Han, W. Wang, Predictive Scotogenic Model with Flavor Dependent Symmetry, Eur. Phys. J. C79, 6, 522 (2019)
9. Z. L. Han, W. Wang, Z′Portal Dark Matter in B-L Scotogenic Dirac Model, Eur. Phys. J. C78, 10, 839 (2018)
10. R. Ding, Z. L. Han, L. Huang, Y. Liao, Phenomenology of colored radiative neutrino mass model and its implications on cosmic-ray observations, Chin. Phys. C42, 10,103101 (2018)
11. Z. L. Han, W. Wang and R. Ding, Radiative Seesaw Model and DAMPE Excess from Leptophilic Gauge Symmetry, Eur. Phys. J. C78, 3, 216 (2018)
12. R. Ding, Z. L. Han, L. Feng and B. Zhu, Confronting the DAMPE Excess with the Scotogenic Type-II Seesaw Model, Chin. Phys. C42, 8, 083104 (2018)
13. B. Li, Z. L. Han and Y. Liao, Higgs production at future $ e^+e^- $ colliders in the Georgi-Machacek model, JHEP 20, 007 (2018)
14. S. Y. Guo, Z. L. Han, B. Li, Y. Liao and X. D. Ma, Interpreting the $ R_{K^{(*)}} $ Anomaly in the Colored Zee-Babu Model, Nucl. Phys. B928, 435 (2018)
15. W. Wang, R. Wang, Z. L. Han and J. Z. Han, The B-L Scotogenic Models for Dirac Neutrino Masses, Eur. Phys. J. C 77, no. 12, 889 (2017)
16. C. Guo, S. Y. Guo, Z. L. Han, B. Li and Y. Liao, Hunting for Heavy Majorana Neutrinos with Lepton Number Violating Signatures at LHC, JHEP 1704, 065 (2017)
17. W. Wang and Z. L. Han, Naturally Small Dirac Neutrino Mass with Intermediate SU(2)L Multiplet Fields, JHEP 1704, 166 (2017)
18. S. Y. Guo, Z. L. Han and Y. Liao, Testing the type II radiative seesaw model: From dark matter detection to LHC signatures, Phys. Rev. D 94, no. 11, 115014 (2016)
19. W. Wang and Z. L. Han, Global U(1)L Breaking in Neutrinophilic 2HDM: From LHC Signatures to X-Ray Line, Phys. Rev. D 94, no. 5, 053015 (2016)
20. R. Ding, Z. L. Han, Y. Liao and W. P. Xie, Radiative neutrino mass with Z3 dark matter: from relic density to LHC signatures, JHEP 1605, 030 (2016)
21. R. Ding, Z. L. Han, Y. Liao and X. D. Ma, Interpretation of 750 GeV Diphoton Excess at LHC in Singlet Extension of Color-octet Neutrino Mass Model, Eur. Phys. J. C 76, no. 4, 204 (2016)
22. W. Wang and Z. L. Han, Radiative linear seesaw model, dark matter, and U(1)B-L, Phys. Rev. D 92, 095001 (2015)
23. Z. L. Han, R. Ding and Y. Liao, LHC phenomenology of the type II seesaw mechanism: Observability of neutral scalars in the nondegenerate case, Phys. Rev. D 92, no. 3, 033014 (2015)
24. Z. L. Han, R. Ding and Y. Liao, LHC Phenomenology of Type II Seesaw: Nondegenerate Case, Phys. Rev. D 91, 093006 (2015)
25. R. Ding, Z. L. Han, Y. Liao, H. J. Liu and J. Y. Liu,Phenomenology in the minimal cascade seesaw mechanism for neutrino masses, Phys. Rev. D 89, no. 11, 115024 (2014)

会议报告

教学课程

大学物理，大学物理实验，计算物理，群论在粒子物理中的应用