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Pseudo-gauge fields in Dirac and Weyl materials
Jiabin Yu,
Chao Xing Liu
Physics
Research output
:
Chapter in Book/Report/Conference proceeding
›
Chapter
6
Scopus citations
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Keyphrases
Gauge Fields
100%
Dirac Materials
100%
Weyl Materials
100%
Dirac
50%
Quasiparticles
50%
Hermann Weyl
50%
Low Energy
25%
Physical Phenomena
25%
Low Temperature
25%
Magnetic Resonance
25%
Current Response
25%
Schrödinger Equation
25%
Physical Consequences
25%
Lattice Strain
25%
Electromagnetic Response
25%
Non-relativistic
25%
Piezo
25%
Speed of Light
25%
Time Reversal
25%
Lattice Vibration
25%
Axion Electrodynamics
25%
Magnetic Topological Insulator
25%
Gauge Invariant
25%
Tabletop
25%
Material Inhomogeneity
25%
Quantum Phenomena
25%
Magnetic Perturbations
25%
Lattice Materials
25%
Physical Field
25%
Invariant Systems
25%
Zero Modes
25%
High Energy Physics
25%
Magnetic Weyl Semimetal
25%
Weyl Fermions
25%
Strain Inhomogeneity
25%
Gauge Coupling
25%
Chiral Anomaly
25%
Physics
Magnetism
100%
Elementary Excitation
50%
Magnetic Resonance
25%
Topological Insulator
25%
Fermion
25%
Physical Phenomena
25%
Electromagnetism
25%
Particle Physics
25%
Quantum Phenomena
25%
Metalloid
25%