Combining opposite rhombohedral stacking sequences in graphite produces topological flat bands at their domain interfaces near the K and K' points.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
verdicts
UNVERDICTED 3representative citing papers
Leading-order RG analysis shows repulsive interactions stabilize a chiral odd-parity pair density wave in quarter metals of chirally stacked graphene heterostructures.
RPA calculation identifies chiral p-wave pairing as dominant in tetralayer graphene at low densities, with distinct finite-momentum and zero-momentum superconducting regimes.
citing papers explorer
-
Topological flat bands emerging at the inversion of stacking order in rhombohedral graphite
Combining opposite rhombohedral stacking sequences in graphite produces topological flat bands at their domain interfaces near the K and K' points.
-
Pair density wave in quarter metals from a repulsive fermionic interaction in graphene heterostructures: A renormalization group study
Leading-order RG analysis shows repulsive interactions stabilize a chiral odd-parity pair density wave in quarter metals of chirally stacked graphene heterostructures.
-
Chiral finite-momentum superconductivity in the tetralayer graphene
RPA calculation identifies chiral p-wave pairing as dominant in tetralayer graphene at low densities, with distinct finite-momentum and zero-momentum superconducting regimes.