ac Josephson effect in a gate-tunable Cd 3 As 2 nanowire superconducting weak link

Haller, R. and Osterwalder, M. and Fülöp, Gergő and Ridderbos, J. and Jung, M. and Schönenberger, C. (2023) ac Josephson effect in a gate-tunable Cd 3 As 2 nanowire superconducting weak link. Physical Review B - Condensed Matter and Materials Physics, 108 (9). ISSN 1098-0121

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Abstract

Three-dimensional topological Dirac semimetals have recently attracted significant attention since they pos- sess exotic quantum states. When Josephson junctions are constructed utilizing these materials as the weak link, the fractional ac Josephson effect emerges in the presence of a topological supercurrent contribution. We investigate the ac Josephson effect in a Dirac semimetal Cd 3 As 2 nanowire using two complementary methods: by probing the radiation spectrum and by measuring Shapiro patterns. With both techniques, we find that the conventional supercurrent dominates at all investigated doping levels and that any potentially present topological contribution falls below our detection threshold. The inclusion of thermal noise in a resistively and capacitively shunted junction (RCSJ) model allows us to reproduce the microwave characteristics of the junction. With this refinement, we explain how weak superconducting features can be masked and provide a framework to account for elevated electronic temperatures present in realistic experimental scenarios.

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