Non-equilibrium charge dynamics in Majorana-Josephson devices

Ian J. van Beek; Alfredo Levy Yeyati; Bernd Braunecker

doi:10.1103/PhysRevB.98.224502

Non-equilibrium charge dynamics in Majorana-Josephson devices

Ian J. van Beek, Alfredo Levy Yeyati, Bernd Braunecker

Physics and Astronomy

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

135 Downloads (Pure)

Abstract

We investigate the impact of introducing Majorana bound states, formed by a proximitized semiconducting nanowire in the topological regime, into a current biased capacitive Josephson junction, thereby adding delocalized states below the superconducting gap. We find that this qualitatively changes the charge dynamics of the system, diminishing the role of Bloch oscillations and causing single-particle tunnelling effects to dominate. We fully characterize the resulting charge dynamics and the associated voltage and current signals. Our work reveals a rich landscape of behaviours in both the static and time-varying driving modes. This can be directly attributed to the presence of Majorana bound states, which serve as a pathway for charge transport and enable non-equilibrium excitations of the Majorana-Josephson device.

Original language	English
Article number	224502
Number of pages	14
Journal	Physical Review B
Volume	98
Issue number	22
DOIs	https://doi.org/10.1103/PhysRevB.98.224502
Publication status	Published - 1 Dec 2018

Bibliographical note

14 pages, 10 figures. Final version, as published

Keywords

cond-mat.mes-hall
cond-mat.str-el
cond-mat.supr-con

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10.1103/PhysRevB.98.224502Licence: None: All rights reserved

van_Beek_et_al_Non_equilibrium_charge_dynamics_in_Majorana_Josephson_devices_Physical_Review_B_2018
©2018 American Physical Society
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Cite this

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title = "Non-equilibrium charge dynamics in Majorana-Josephson devices",

abstract = " We investigate the impact of introducing Majorana bound states, formed by a proximitized semiconducting nanowire in the topological regime, into a current biased capacitive Josephson junction, thereby adding delocalized states below the superconducting gap. We find that this qualitatively changes the charge dynamics of the system, diminishing the role of Bloch oscillations and causing single-particle tunnelling effects to dominate. We fully characterize the resulting charge dynamics and the associated voltage and current signals. Our work reveals a rich landscape of behaviours in both the static and time-varying driving modes. This can be directly attributed to the presence of Majorana bound states, which serve as a pathway for charge transport and enable non-equilibrium excitations of the Majorana-Josephson device. ",

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N2 - We investigate the impact of introducing Majorana bound states, formed by a proximitized semiconducting nanowire in the topological regime, into a current biased capacitive Josephson junction, thereby adding delocalized states below the superconducting gap. We find that this qualitatively changes the charge dynamics of the system, diminishing the role of Bloch oscillations and causing single-particle tunnelling effects to dominate. We fully characterize the resulting charge dynamics and the associated voltage and current signals. Our work reveals a rich landscape of behaviours in both the static and time-varying driving modes. This can be directly attributed to the presence of Majorana bound states, which serve as a pathway for charge transport and enable non-equilibrium excitations of the Majorana-Josephson device.

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Non-equilibrium charge dynamics in Majorana-Josephson devices

Abstract

Bibliographical note

Keywords

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