Moiré superlattices steer the orientation of alterelectric quadrupolar order from a weakly selected regime to a robust axial-dominated state via registry-phase control in a Bloch-periodic model.
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Nematic order competes with d-wave superconductivity via a first-order transition but coexists with s-wave pairing in a 2D electron gas with quadrupolar interactions, producing mixed phases at finite temperature.
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Moire Control of Alterelectric Quadrupolar Order
Moiré superlattices steer the orientation of alterelectric quadrupolar order from a weakly selected regime to a robust axial-dominated state via registry-phase control in a Bloch-periodic model.
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Competition and coexistence of superconductivity and nematic order in a two-dimensional electron gas with quadrupolar interactions
Nematic order competes with d-wave superconductivity via a first-order transition but coexists with s-wave pairing in a 2D electron gas with quadrupolar interactions, producing mixed phases at finite temperature.