End-to-end correlated subgap states in hybrid nanowires

G. L. R. Anselmetti; E. A. Martinez; G. C. Ménard; D. Puglia; F. K. Malinowski; J. S. Lee; S. Choi; M. Pendharkar; C. J. Palmstrøm; Charles Marcus; Lucas Casparis; Andrew Higginbotham

End-to-end correlated subgap states in hybrid nanowires

G. L. R. Anselmetti ,
E. A. Martinez ,
G. C. Ménard ,
D. Puglia ,
F. K. Malinowski ,
J. S. Lee ,
S. Choi ,
M. Pendharkar ,
C. J. Palmstrøm ,
Charles Marcus ,
Lucas Casparis ,
Andrew Higginbotham

Physical Review B | November 2019 , Vol 100(20): pp. 205412

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End-to-end correlated bound states are investigated in superconductor-semiconductor hybrid nanowires at zero magnetic field. Peaks in subgap conductance are independently identified from each wire end, and a cross-correlation function is computed that counts end-to-end coincidences, averaging over thousands of subgap features. Strong correlations in a short, 300-nm device are reduced by a factor of 4 in a long, 900-nm device. In addition, subgap conductance distributions are investigated, and correlations between the left and right distributions are identified based on their mutual information.