Quantum oscillations reveal a multitone Fermi surface in rhombohedral tetralayer graphene that persists through the superconducting regime and is incompatible with a simply-connected quarter metal.
Parker and Ashvin Vishwanath , year=
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Self-doped Wigner crystals arise from preempted band-inversion transitions between commensurate crystals, as established by non-perturbative arguments and Hartree-Fock calculations in jellium and rhombohedral graphene models.
citing papers explorer
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Fermiology and the Candidate Chiral Superconductor in Rhombohedral Tetralayer Graphene
Quantum oscillations reveal a multitone Fermi surface in rhombohedral tetralayer graphene that persists through the superconducting regime and is incompatible with a simply-connected quarter metal.
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Self-doped Crystal from Preempted Band-inversion Transitions
Self-doped Wigner crystals arise from preempted band-inversion transitions between commensurate crystals, as established by non-perturbative arguments and Hartree-Fock calculations in jellium and rhombohedral graphene models.