In the Rashba-Zeeman-Hubbard model, supercurrent nonreciprocally induces antiferromagnetic order that governs the critical current and produces perfect superconducting diode efficiency in correlated systems.
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Nonreciprocal zero-field critical currents in CsV3Sb5 nanodevices whose polarity is trainable by magnetic fields applied above the CDW transition, evidencing TRS-breaking loop-current CDW order.
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Superconducting diode effect in correlated electron systems by nonreciprocal magnetism
In the Rashba-Zeeman-Hubbard model, supercurrent nonreciprocally induces antiferromagnetic order that governs the critical current and produces perfect superconducting diode efficiency in correlated systems.
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Nonreciprocal superconducting critical currents with normal state field trainability in kagome superconductor CsV3Sb5
Nonreciprocal zero-field critical currents in CsV3Sb5 nanodevices whose polarity is trainable by magnetic fields applied above the CDW transition, evidencing TRS-breaking loop-current CDW order.