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Observation of Conductance Quantization in InSb Nanowire Networks

Authors :
Fadaly, E.M.T. (author)
Zhang, H. (author)
Conesa Boj, S.C. (author)
Car, D. (author)
Gül, Önder (author)
Plissard, Sébastien R. (author)
op het Veld, R.L.M. (author)
Kölling, Sebastian (author)
Kouwenhoven, Leo P. (author)
Bakkers, E.P.A.M. (author)
Fadaly, E.M.T. (author)
Zhang, H. (author)
Conesa Boj, S.C. (author)
Car, D. (author)
Gül, Önder (author)
Plissard, Sébastien R. (author)
op het Veld, R.L.M. (author)
Kölling, Sebastian (author)
Kouwenhoven, Leo P. (author)
Bakkers, E.P.A.M. (author)
Publication Year :
2017

Abstract

Majorana zero modes (MZMs) are prime candidates for robust topological quantum bits, holding a great promise for quantum computing. Semiconducting nanowires with strong spin orbit coupling offer a promising platform to harness one-dimensional electron transport for Majorana physics. Demonstrating the topological nature of MZMs relies on braiding, accomplished by moving MZMs around each other in a certain sequence. Most of the proposed Majorana braiding circuits require nanowire networks with minimal disorder. Here, the electronic transport across a junction between two merged InSb nanowires is studied to investigate how disordered these nanowire networks are. Conductance quantization plateaus are observed in most of the contact pairs of the epitaxial InSb nanowire networks: the hallmark of ballistic transport behavior.<br />Kouwenhoven Lab<br />QuTech<br />QN/Conesa-Boj Lab<br />QN/Bakkers Lab

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1022934996
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1021.acs.nanolett.7b00797