Zero-field Josephson nonreciprocity in 2H-TaS2/2H-NbSe2 junctions, together with nonlinear Hall transport, indicates intrinsic time-reversal symmetry breaking in the multiband superconductor 2H-TaS2 via interband scattering.
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Theoretical calculations for S/F/S Josephson junctions with GdIr2Si2 thin films predict an anomalous phase shift of order unity and a magnetization-tunable Josephson diode effect with efficiency up to 0.3.
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Signatures of time-reversal-symmetry breaking in multiband 2H-TaS2 revealed by zero-field Josephson nonreciprocity
Zero-field Josephson nonreciprocity in 2H-TaS2/2H-NbSe2 junctions, together with nonlinear Hall transport, indicates intrinsic time-reversal symmetry breaking in the multiband superconductor 2H-TaS2 via interband scattering.
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Anomalous phase shift and superconducting diode effect in Josephson junctions via thin films of rare-earth intermetallic magnets
Theoretical calculations for S/F/S Josephson junctions with GdIr2Si2 thin films predict an anomalous phase shift of order unity and a magnetization-tunable Josephson diode effect with efficiency up to 0.3.