Anomalous Hall crystals have stiffness an order of magnitude smaller than Wigner crystals due to finite Chern number, triggering mechanical instability under deformations in rhombohedral pentalayer graphene models.
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Superconductivity in rhombohedral trilayer graphene is explained as quasiparticle pairing from the intervalley coherent state, producing Tc proportional to epsilon_D exp(-2 over rho_qp U) and coherence length xi approximately v over sqrt(mu Tc) that match data.
citing papers explorer
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Elastic Response and Instabilities of Anomalous Hall Crystals
Anomalous Hall crystals have stiffness an order of magnitude smaller than Wigner crystals due to finite Chern number, triggering mechanical instability under deformations in rhombohedral pentalayer graphene models.
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Superconductivity from Quasiparticle Pairing of Intervalley Coherent State in Rhombohedral Trilayer Graphene
Superconductivity in rhombohedral trilayer graphene is explained as quasiparticle pairing from the intervalley coherent state, producing Tc proportional to epsilon_D exp(-2 over rho_qp U) and coherence length xi approximately v over sqrt(mu Tc) that match data.