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Field theory of nematicity in the spontaneous quantum anomalous Hall effect
Yizhi You,
Eduardo Fradkin
Physics
Center for Advanced Study
Materials Research Lab
Center for Latin American and Caribbean Studies
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Keyphrases
Background Fields
33%
Band Crossing
33%
Berry Phase
66%
Bosonization
33%
Chern
33%
Chern Insulator
33%
Chern-Simons Gauge Theory
33%
Conserved Currents
33%
Dynamic Scaling
33%
Effective Action
33%
Effective Field Theories
66%
Effective Theory
33%
Energy Dynamics
33%
Fermions
100%
Field Theory
100%
Gauge Fields
33%
Hall Viscosity
66%
Hydrodynamic Mode
33%
Lattice Deformation
33%
Local Fluctuations
33%
Local Frame
33%
Long Wavelength
33%
Low Energy
33%
Maxwell
33%
Metric Tensor
33%
Microscopic Model
33%
Nematic Order
66%
Nematic Order Parameter
100%
Nematicity
100%
Quantum Anomalous Hall Effect
100%
Quantum Phase Transition
33%
Scaling Exponent
33%
Space Components
33%
Spinor Field
66%
Time-reversal Symmetry Breaking
33%
Topological Sector
33%
Two-component
33%
Physics
Broken Symmetry
33%
Effective Field Theory
66%
Fermion
100%
Gauge Theory
33%
Photoelectric Emission
100%