研究领域

代数拓扑,以及其与数学物理,微分几何的交叉处。论文详见个人网站:https://wanzheyan.github.io

教育背景

2009-2014 学士 中国科学技术大学

2014-2019 博士 中国科学技术大学


工作经历

2019 至今 清华大学丘成桐数学科学中心 博士后

荣誉与奖励

2020年若琳科研奖

发表论文


1. Higher Anomalies, Higher Symmetries, and Cobordisms II: Applications to Quantum Gauge Theories, Zheyan Wan, Juven Wang, Yunqin Zheng. Annals of Mathematical Sciences and Applications, Vol. 5, No. 2, 171-257 (2020) Preprint available at arXiv: 1912.13504.



2. Higher Anomalies, Higher Symmetries, and Cobordisms III: QCD Matter Phases Anew,  Zheyan Wan, Juven Wang. Nuclear Physics B, 115016 (2020). Preprint available at arXiv: 1912.13514.




3. Beyond Standard Models and Grand Unifications: Anomalies, Topological Terms, and Dynamical Constraints via Cobordisms,  Zheyan Wan, Juven Wang. JHEP 07 (2020) 062. Preprint available at arXiv: 1910.14668.



4. Quantum 4d Yang-Mills Theory and Time-Reversal Symmetric 5d Higher-Gauge Topological Field Theory,  Zheyan Wan, Juven Wang, Yunqin Zheng. Phys.Rev.D 100 (2019) 8, 085012. Preprint available at arXiv: 1904.00994. 



5. New Higher Anomalies, SU(N) Yang-Mills Gauge Theory and CP^{N-1} Sigma Model,  Zheyan Wan, Juven Wang, Yunqin Zheng. Annals Phys. 414 (2020) 168074. Preprint available at arXiv: 1812.11968. 



6. Higher anomalies, higher symmetries, and cobordisms I: classification of higher-symmetry-protected topological states and their boundary fermionic/bosonic anomalies via a generalized cobordism theory,  Zheyan Wan, Juven Wang. Ann.Math.Sci.Appl. 4 (2019) 2, 107-311. Preprint available at arXiv: 1812.11967. 



7. Fermionic Finite-Group Gauge Theories and Interacting Symmetric/Crystalline Orders via Cobordisms, Meng Guo, Kantaro Ohmori, Pavel Putrov, Zheyan Wan, Juven Wang. Commun.Math.Phys. (2020) 1-82. Preprint available at arXiv: 1812.11959.



8. Adjoint QCD_4, Symmetry-Enriched TQFT and Higher Symmetry-Extension,  Zheyan Wan, Juven Wang. Phys.Rev.D 99 (2019) 6, 065013. Preprint available at arXiv: 1812.11955. 



9. Explicit cocycle formulas on finite abelian groups with applications to braided linear Gr-categories and Dijkgraaf-Witten invariants, Hua-Lin Huang, Zheyan Wan, Yu Ye. Proceedings of the Royal Society of Edinburgh Section A: Mathematics (2019). Preprint available at arXiv: 1703.03266. 






10. Tunneling Topological Vacua via Extended Operators: (Spin-)TQFT Spectra and Boundary Deconfinement in Various Dimensions, Juven Wang, Kantaro Ohmori, Pavel Putrov, Yunqin Zheng, Zheyan Wan, Meng Guo, Hai Lin, Peng Gao, Shing-Tung Yau. Prog. Theor. Exp. Phys. 053A01 (2018). Preprint available at arXiv: 1801.05416.



11. Studying complex manifolds by using groups G_n^k and \Gamma_n^k, Vassily Olegovich Manturov, Zheyan WanJournal of Knot Theory and its Ramifications

 Vol. 29, No. 13, 2043002 (2020). Preprint available at arXiv: 2007.02791.



12. Classification of spherical fusion categories of Frobenius-Schur exponent 2,  Zheyan Wan, Yilong Wang.  Algebra Colloquium 28 : 1 (2021) 39-50. Preprint available at arXiv: 1811.02004.