Flux-Controlled Two-Site Kitaev Chain

Ivan Kulesh; Sebastiaan L.D. Ten Haaf; Qingzhen Wang; Vincent P.M. Sietses; Yining Zhang; Sebastiaan R. Roelofs; Christian G. Prosko; Di Xiao; Srijit Goswami; null More Authors

doi:10.1103/r9pv-2prs

Flux-Controlled Two-Site Kitaev Chain

Ivan Kulesh, Sebastiaan L.D. Ten Haaf, Qingzhen Wang, Vincent P.M. Sietses, Yining Zhang, Sebastiaan R. Roelofs, Christian G. Prosko, Di Xiao, Srijit Goswami, More Authors

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Abstract

In semiconducting-superconducting hybrid devices, Andreev bound states (ABSs) can mediate the coupling between quantum dots, allowing for the realization of artificial Kitaev chains. In order to engineer Majorana bound states (MBSs) in these systems, one must control the energy of the ABSs. In this Letter, we show how extended ABSs in a flux-tunable Josephson junction can be used to control the coupling between distant quantum dots separated by ≃1 μm. In particular, we demonstrate that the combination of electrostatic control and phase control over the ABSs increases the parameter space in which MBSs are observed. Finally, by employing an additional spectroscopic probe in the hybrid region between the quantum dots, we gain information about the spatial distribution of the Majorana wave function in a two-site Kitaev chain.

Original language	English
Article number	056301
Pages (from-to)	56301
Number of pages	1
Journal	Physical review letters
Volume	135
Issue number	5
DOIs	https://doi.org/10.1103/r9pv-2prs
Publication status	Published - 2025

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title = "Flux-Controlled Two-Site Kitaev Chain",

abstract = "In semiconducting-superconducting hybrid devices, Andreev bound states (ABSs) can mediate the coupling between quantum dots, allowing for the realization of artificial Kitaev chains. In order to engineer Majorana bound states (MBSs) in these systems, one must control the energy of the ABSs. In this Letter, we show how extended ABSs in a flux-tunable Josephson junction can be used to control the coupling between distant quantum dots separated by ≃1 μm. In particular, we demonstrate that the combination of electrostatic control and phase control over the ABSs increases the parameter space in which MBSs are observed. Finally, by employing an additional spectroscopic probe in the hybrid region between the quantum dots, we gain information about the spatial distribution of the Majorana wave function in a two-site Kitaev chain.",

author = "Ivan Kulesh and {Ten Haaf}, {Sebastiaan L.D.} and Qingzhen Wang and Sietses, {Vincent P.M.} and Yining Zhang and Roelofs, {Sebastiaan R.} and Prosko, {Christian G.} and Di Xiao and Srijit Goswami and {More Authors}",

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doi = "10.1103/r9pv-2prs",

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T1 - Flux-Controlled Two-Site Kitaev Chain

AU - Kulesh, Ivan

AU - Ten Haaf, Sebastiaan L.D.

AU - Wang, Qingzhen

AU - Sietses, Vincent P.M.

AU - Zhang, Yining

AU - Roelofs, Sebastiaan R.

AU - Prosko, Christian G.

AU - Xiao, Di

AU - Goswami, Srijit

AU - More Authors, null

PY - 2025

Y1 - 2025

N2 - In semiconducting-superconducting hybrid devices, Andreev bound states (ABSs) can mediate the coupling between quantum dots, allowing for the realization of artificial Kitaev chains. In order to engineer Majorana bound states (MBSs) in these systems, one must control the energy of the ABSs. In this Letter, we show how extended ABSs in a flux-tunable Josephson junction can be used to control the coupling between distant quantum dots separated by ≃1 μm. In particular, we demonstrate that the combination of electrostatic control and phase control over the ABSs increases the parameter space in which MBSs are observed. Finally, by employing an additional spectroscopic probe in the hybrid region between the quantum dots, we gain information about the spatial distribution of the Majorana wave function in a two-site Kitaev chain.

AB - In semiconducting-superconducting hybrid devices, Andreev bound states (ABSs) can mediate the coupling between quantum dots, allowing for the realization of artificial Kitaev chains. In order to engineer Majorana bound states (MBSs) in these systems, one must control the energy of the ABSs. In this Letter, we show how extended ABSs in a flux-tunable Josephson junction can be used to control the coupling between distant quantum dots separated by ≃1 μm. In particular, we demonstrate that the combination of electrostatic control and phase control over the ABSs increases the parameter space in which MBSs are observed. Finally, by employing an additional spectroscopic probe in the hybrid region between the quantum dots, we gain information about the spatial distribution of the Majorana wave function in a two-site Kitaev chain.

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VL - 135

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JF - Physical review letters

IS - 5

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Flux-Controlled Two-Site Kitaev Chain

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