Non-Abelian String and Particle Braiding in Topological Order: Modular SL(3,Z) Representation and (3+1)-Dimensional Twisted Gauge Theory JC Wang, XG Wen Physical Review B 91 (3), 035134 (arXiv:1404.7854), 2015 | 224 | 2015 |
Field-Theory Representation of Gauge-Gravity Symmetry-Protected Topological Invariants, Group Cohomology, and Beyond JC Wang, ZC Gu, XG Wen Physical Review Letters 114 (3), 031601 (arXiv:1405.7689), 2015 | 203 | 2015 |
Symmetric Gapped Interfaces of SPT and SET States: Systematic Constructions J Wang, XG Wen, E Witten Physical Review X 8 (3), 031048 (arXiv:1705.06728), 2018 | 179 | 2018 |
Gapped Domain Walls, Gapped Boundaries, and Topological Degeneracy T Lan, JC Wang, XG Wen Physical Review Letters 114 (7), 076402 (arXiv:1408.6514), 2015 | 152 | 2015 |
Higher Anomalies, Higher Symmetries, and Cobordisms I: Classification of Higher-Symmetry-Protected Topological States and Their Boundary Fermionic/Bosonic Anomalies via a … Z Wan, J Wang Ann. Math. Sci. Appl. 4, 107-311 (arXiv: 1812.11967), 2018 | 135 | 2018 |
Braiding Statistics and Link Invariants of Bosonic/Fermionic Topological Quantum Matter in 2+1 and 3+1 dimensions P Putrov, J Wang, ST Yau Annals of Physics 384, 254-287 (arXiv:1612.09298), 2017 | 121 | 2017 |
A New SU(2) Anomaly J Wang, XG Wen, E Witten Journal of Mathematical Physics 60 (5), 052301 (arXiv:1810.00844), 2019 | 108 | 2019 |
Boundary Degeneracy of Topological Order JC Wang, XG Wen Physical Review B 91 (12), 125124 (arXiv:1212.4863), 2012 | 101 | 2012 |
Time reversal, SU (N) Yang–Mills and cobordisms: Interacting topological superconductors/insulators and quantum spin liquids in 3+1D M Guo, P Putrov, J Wang Annals of Physics 394, 244-293 (arXiv:1711.11587), 2018 | 99 | 2018 |
Twisted Gauge Theory Model of Topological Phases in 3+1 Dimensions Y Wan, JC Wang, H He Physical Review B 92 (4), 045101 (arXiv:1409.3216), 2015 | 99 | 2015 |
Fermionic Finite-Group Gauge Theories and Interacting Symmetric/Crystalline Orders via Cobordisms M Guo, K Ohmori, P Putrov, Z Wan, J Wang Communications in Mathematical Physics, 1-82 (arXiv:1812.11959), 2020 | 97 | 2020 |
Adjoint QCD 4, deconfined critical phenomena, symmetry-enriched topological quantum field theory, and higher symmetry extension Z Wan, J Wang Physical Review D 99 (6), 065013 (arXiv:1812.11955), 2019 | 92 | 2019 |
Beyond Standard Models and Grand Unifications: Anomalies, Topological Terms, and Dynamical Constraints via Cobordisms Z Wan, J Wang Journal of High Energy Physics 2020 (7), 1-93 (arXiv:1910.14668), 2020 | 80 | 2020 |
Bosonic anomalies, induced fractional quantum numbers, and degenerate zero modes: The anomalous edge physics of symmetry-protected topological states JC Wang, LH Santos, XG Wen Physical Review B 91 (19), 195134 (arXiv:1403.5256), 2015 | 78 | 2015 |
Nonperturbative Regularization of 1+1D Anomaly-Free Chiral Fermions and Bosons: On the equivalence of anomaly matching conditions and boundary gapping rules J Wang, XG Wen Physical Review B 107, 014311 (arXiv:1307.7480), 2013 | 75* | 2013 |
Bulk viscosity of a gas of massless pions JW Chen, J Wang Physical Review C 79 (4), 044913 (arXiv:0711.4824), 2009 | 74 | 2009 |
Theory of the disordered ν= 5/2 quantum thermal Hall state: Emergent symmetry and phase diagram B Lian, J Wang Physical Review B 97 (16), 165124 (arXiv:1801.10149), 2018 | 72 | 2018 |
Nonperturbative Definition of the Standard Models J Wang, XG Wen Physical Review Research 2 (2), 023356 (arXiv:1809.11171), 2020 | 70 | 2020 |
Tunneling topological vacua via extended operators:(Spin-) TQFT spectra and boundary deconfinement in various dimensions J Wang, K Ohmori, P Putrov, Y Zheng, Z Wan, M Guo, H Lin, P Gao, ... Progress of Theoretical and Experimental Physics 2018 (5), 053A01 (arXiv …, 2018 | 68* | 2018 |
Symmetric Mass Generation J Wang, YZ You Symmetry 14 (7), 1475 (arXiv:2204.14271), 2022 | 60 | 2022 |