The authors introduce a universal criterion of two inequalities evaluated from the bare Hamiltonian to diagnose intrinsic superconducting diode effect and a graph-theoretic method to construct nonreciprocal models.
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Chiral cavity photon exchange induces orbital magnetization that embeds chirality into a superconductor's ground state, producing a photo-controlled diode nonreciprocity demonstrated in principle for twisted bilayer graphene.
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Universal Criterion and Graph-Theoretic Construction of Intrinsic Superconducting Diode Effect
The authors introduce a universal criterion of two inequalities evaluated from the bare Hamiltonian to diagnose intrinsic superconducting diode effect and a graph-theoretic method to construct nonreciprocal models.
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Photo-induced superconducting diode effect via chiral cavity modes
Chiral cavity photon exchange induces orbital magnetization that embeds chirality into a superconductor's ground state, producing a photo-controlled diode nonreciprocity demonstrated in principle for twisted bilayer graphene.