Parity transitions in the superconducting ground state of hybrid InSb–Al Coulomb islands

Parity transitions in the superconducting ground state of hybrid InSb–Al Coulomb islands

Understanding the ground state (GS) phase transitions in the quantum tunneling regime of a superconducting system is important for future qubit devices. Here, Shen, Heedt and Borsoi et al. report distinct types of fermion parity GS transitions as a function of magnetic field and gate voltages in a C...

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Bibliographic Details
Main Authors: Jie Shen, Sebastian Heedt, Francesco Borsoi, Bernard van Heck, Sasa Gazibegovic, Roy L. M. Op het Veld, Diana Car, John A. Logan, Mihir Pendharkar, Senja J. J. Ramakers, Guanzhong Wang, Di Xu, Daniël Bouman, Attila Geresdi, Chris J. Palmstrøm, Erik P. A. M. Bakkers, Leo P. Kouwenhoven
Format: article
Language:EN
Published: Nature Portfolio 2018
Subjects:
Science
Q
Online Access:https://doaj.org/article/bfa0113aef074bd595e1c2c33a342df8
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Summary:Understanding the ground state (GS) phase transitions in the quantum tunneling regime of a superconducting system is important for future qubit devices. Here, Shen, Heedt and Borsoi et al. report distinct types of fermion parity GS transitions as a function of magnetic field and gate voltages in a Coulomb-blockaded InSb–Al island.

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