2023年第70回応用物理学会春季学術講演会

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一般セッション(口頭講演)

10 スピントロニクス・マグネティクス » 10.4 半導体・トポロジカル・超伝導・強相関スピントロニクス

[16p-D704-1~18] 10.4 半導体・トポロジカル・超伝導・強相関スピントロニクス

2023年3月16日(木) 13:30 〜 18:30 D704 (11号館)

福島 鉄也(東大)、名和 憲嗣(三重大)、小林 正起(東大)

17:45 〜 18:00

[16p-D704-16] Flux-periodic supercurrent oscillations in GaAs/InAs/Al core/shell/halfshell nanowire Josephson junctions

〇(PC)Patrick Zellekens1、Russell Deacon1,2、Pujitha Perla3,4、Mihail Lepsa3,4、Detlev Gruetzmacher3,4、Thomas Schaepers3,4、Koji Ishibashi1,2 (1.RIKEN CEMS, 351-0198 Saitama, Japan、2.ADL, RIKEN, 351-0198 Saitama, Japan、3.PGI, Forschungszentrum Juelich, 52428 Juelich, Germany、4.JARA-FIT, Fundamentals of Future Information Technology)

キーワード:Nanowire Josephson junctions, Superconductivity, Majorana fermions

Mesoscopic nanowire Josephson junctions have been proposed as a potential building block for topological systems. The state-of-the-art realization is based on the combination of a semiconductor with strong spin-orbit interaction such as InAs or InSb with an epitaxially grown superconducting shell. However, one of the main challenges is the creation of separate spin branches in the state spectrum (“helical gap”) due to the strong in-plane field that is required to induce a sufficient Zeeman splitting. To overcome this, several other approaches have been proposed that try to limit the challenges during the actual experiment by exploting more complex device layouts. One of them is based on the so-called Little-Parks effect, whose most famous signature is the formation of supercurrent “lobes” separated by dissipative transport. Even though signatures of this effect have already been observed in nanowires fully surrounded by a superconducting shell, many questions regarding the actual formation of the hybridized states and the influence of the system dimensions still need to be addressed. Here, we use GaAs/InAs/Al core/shell/halfshell nanowires due to the strong localization of the transport within the narrow band gap semiconductor as a testbed to get more insight into this effect and to study the observed flux-periodic oscillations.