We investigate a ballistic InSb nanoflag-based Josephson junction with Nb superconducting contacts. The high transparency of the superconductor-semiconductor interfaces enables the exploration of quantum transport with parallel short and long conducting channels. Under microwave irradiation, we observe half-integer Shapiro steps that are robust to temperature, suggesting their possible nonequilibrium origin. Our results demonstrate the potential of ballistic InSb nanoflags Josephson junctions as a valuable platform for understanding the physics of hybrid devices and investigating their nonequilibrium dynamics. © 2023 authors. Published by the American Physical Society.
Half-integer Shapiro steps in highly transmissive InSb nanoflag Josephson junctions
A. Crippa;S. Salimian;M. Carrega;L. Chirolli;V. Zannier;L. Sorba;E. Strambini;F. Giazotto;S. Heun
2023
Abstract
We investigate a ballistic InSb nanoflag-based Josephson junction with Nb superconducting contacts. The high transparency of the superconductor-semiconductor interfaces enables the exploration of quantum transport with parallel short and long conducting channels. Under microwave irradiation, we observe half-integer Shapiro steps that are robust to temperature, suggesting their possible nonequilibrium origin. Our results demonstrate the potential of ballistic InSb nanoflags Josephson junctions as a valuable platform for understanding the physics of hybrid devices and investigating their nonequilibrium dynamics. © 2023 authors. Published by the American Physical Society.| File | Dimensione | Formato | |
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Descrizione: Half-integer Shapiro steps in highly transmissive InSb nanoflag Josephson junctions
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