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Magnetic field resistant quantum interferences in bismuth nanowires based Josephson junctions

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arxiv 1406.4280 v1 pith:U55MLAU4 submitted 2014-06-17 cond-mat.mes-hall

Magnetic field resistant quantum interferences in bismuth nanowires based Josephson junctions

classification cond-mat.mes-hall
keywords fieldcriticalbismuthhighmagneticsamplescurrentelectrodes
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We investigate proximity induced superconductivity in micrometer-long bismuth nanowires con- nected to superconducting electrodes with a high critical field. At low temperature we measure a supercurrent that persists in magnetic fields as high as the critical field of the electrodes (above 11 T). The critical current is also strongly modulated by the magnetic field. In certain samples we find regular, rapid SQUID-like periodic oscillations occurring up to high fields. Other samples ex- hibit less periodic but full modulations of the critical current on Tesla field scales, with field-caused extinctions of the supercurrent. These findings indicate the existence of low dimensionally, phase coherent, interfering conducting regions through the samples, with a subtle interplay between orbital and spin contributions. We relate these surprising results to the electronic properties of the surface states of bismuth, strong Rashba spin-orbit coupling, large effective g factors, and their effect on the induced superconducting correlations.

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