Inter-subband coupling in multichannel Rashba nanowire Josephson junctions confines the topological phase to finite Zeeman fields, enables JDE for spin-orbit-aligned Zeeman fields, and increases diode efficiency via enhanced spectral asymmetry and Majorana bound states.
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Strong correlations in a Josephson junction with odd electrons spontaneously break symmetries to enable zero-field Josephson diode effect without magnetic order.
citing papers explorer
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Josephson diode effect in multichannel Rashba nanowires: Role of inter-subband coupling
Inter-subband coupling in multichannel Rashba nanowire Josephson junctions confines the topological phase to finite Zeeman fields, enables JDE for spin-orbit-aligned Zeeman fields, and increases diode efficiency via enhanced spectral asymmetry and Majorana bound states.
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Strong Correlation Drives Zero-Field Josephson Diode Effect
Strong correlations in a Josephson junction with odd electrons spontaneously break symmetries to enable zero-field Josephson diode effect without magnetic order.