Jian Kang
Affiliations: | 2007-2013 | Department of Physics & Astronomy | Johns Hopkins University, Baltimore, MD |
2013-2017 | School of Physics and Astronomy | University of Minnesota - Minneapolis | |
2017-2019 | National High Field Magnetic Laboratory |
Area:
condensed matter physicsGoogle:
"Jian Kang"Mean distance: (not calculated yet)
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Publications
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Kang J, Bernevig BA, Vafek O. (2021) Cascades between Light and Heavy Fermions in the Normal State of Magic-Angle Twisted Bilayer Graphene. Physical Review Letters. 127: 266402 |
Chen BB, Liao YD, Chen Z, et al. (2021) Realization of topological Mott insulator in a twisted bilayer graphene lattice model. Nature Communications. 12: 5480 |
Vafek O, Kang J. (2020) Renormalization Group Study of Hidden Symmetry in Twisted Bilayer Graphene with Coulomb Interactions. Physical Review Letters. 125: 257602 |
Shaffer D, Kang J, Burnell FJ, et al. (2020) Crystalline nodal topological superconductivity and Bogolyubov Fermi surfaces in monolayer NbSe2 Physical Review B. 101 |
Kang J, Vafek O. (2019) Strong Coupling Phases of Partially Filled Twisted Bilayer Graphene Narrow Bands. Physical Review Letters. 122: 246401 |
Christensen MH, Kang J, Fernandes RM. (2019) Intertwined spin-orbital coupled orders in the iron-based superconductors Physical Review B. 100: 14512 |
Kang J, Fernandes RM, Chubukov A. (2018) Superconductivity in FeSe: The Role of Nematic Order. Physical Review Letters. 120: 267001 |
Kang J, Vafek O. (2018) Symmetry, Maximally Localized Wannier States, and a Low-Energy Model for Twisted Bilayer Graphene Narrow Bands Physical Review X. 8 |
Kang J, Fernandes RM, Abrahams E, et al. (2018) Superconductivity at an antiferromagnetic quantum critical point: Role of energy fluctuations Physical Review B. 98 |
Kang J, Chubukov AV, Fernandes RM. (2018) Time-reversal symmetry-breaking nematic superconductivity in FeSe Physical Review B. 98 |