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Electron- K -phonon interaction in twisted bilayer graphene
Chao Xing Liu
, Yulin Chen
,
Ali Yazdani
,
B. Andrei Bernevig
Physics
Princeton Materials Institute
Princeton Center for Theoretical Science (PCTS)
Research output
:
Contribution to journal
›
Article
›
peer-review
18
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Scopus citations
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Keyphrases
Phonons
100%
Phonon Interaction
100%
Twisted Bilayer Graphene
100%
Flat Band
66%
Chern
66%
Order Parameter
50%
Gapless
33%
Superconductivity
33%
Attractive Interaction
33%
Gap Equation
33%
Shear Wave
16%
Low Density
16%
Graphene
16%
Density of States
16%
Van Hove Singularity
16%
High-Tc
16%
Singlet
16%
Angle-resolved Photoemission Spectroscopy (ARPES)
16%
Band-limited
16%
Coulomb Interaction
16%
Heavy Fermion
16%
Analytic Form
16%
Analytic Theory
16%
Intervalley
16%
Electron-phonon Interaction
16%
D-Wave
16%
Electron-phonon
16%
Symmetry Analysis
16%
Correlated Insulator
16%
Nematic State
16%
Full Symmetry
16%
Excitation Bands
16%
Two-center
16%
Engineering
Graphene
100%
Phonon Interaction
100%
Superconductivity
33%
Nodes
16%
Singularities
16%
Photoemission
16%
Coulomb Interaction
16%
Band Channel
16%
Chemistry
Phonon
100%
Graphene
100%
Order Parameter
37%
Superconductivity
25%
Photoelectron Spectroscopy
12%
Density of State
12%
Electron-Phonon Interaction
12%
Physics
Graphene
100%
Phonon
100%
Superconductivity
25%
Fermion
12%
Photoelectric Emission
12%
Density of States
12%
Electron Phonon Interactions
12%
Material Science
Graphene
100%
Superconductivity
33%
Density
16%
Photoemission Spectroscopy
16%