Triplet-blockaded Josephson supercurrent in double quantum dots

Daniel Bouman; Ruben J. J. van Gulik; Gorm Steffensen; David Pataki; Peter Boross; Peter Krogstrup; Jesper Nygard; Jens Paaske; Andras Palyi; Attila Geresdi

doi:10.1103/PhysRevB.102.220505

Triplet-blockaded Josephson supercurrent in double quantum dots

Daniel Bouman, Ruben J. J. van Gulik, Gorm Steffensen, David Pataki, Peter Boross, Peter Krogstrup, Jesper Nygard, Jens Paaske, Andras Palyi, Attila Geresdi^*

^*Corresponding author af dette arbejde

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Abstract

Serial double quantum dots created in semiconductor nanostructures provide a versatile platform for investigating two-electron spin quantum states, which can be tuned by electrostatic gating and an external magnetic field. In this Rapid Communication, we directly measure the supercurrent reversal between adjacent charge states of an InAs nanowire double quantum dot with superconducting leads, in good agreement with theoretical models. In the even charge parity sector, we observe a supercurrent blockade with increasing magnetic field, corresponding to the spin singlet to triplet transition. Our results demonstrate a direct spin to supercurrent conversion, the superconducting equivalent of the Pauli spin blockade. This effect can be exploited in hybrid quantum architectures coupling the quantum states of spin systems and superconducting circuits.

Originalsprog	Engelsk
Artikelnummer	220505
Tidsskrift	Physical Review B
Vol/bind	102
Udgave nummer	22
Antal sider	6
ISSN	2469-9950
DOI	https://doi.org/10.1103/PhysRevB.102.220505
Status	Udgivet - 21 dec. 2020

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10.1103/PhysRevB.102.220505Licens: CC BY

PhysRevB.102.220505Forlagets udgivne version, 913 KBLicens: CC BY

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Citationsformater

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abstract = "Serial double quantum dots created in semiconductor nanostructures provide a versatile platform for investigating two-electron spin quantum states, which can be tuned by electrostatic gating and an external magnetic field. In this Rapid Communication, we directly measure the supercurrent reversal between adjacent charge states of an InAs nanowire double quantum dot with superconducting leads, in good agreement with theoretical models. In the even charge parity sector, we observe a supercurrent blockade with increasing magnetic field, corresponding to the spin singlet to triplet transition. Our results demonstrate a direct spin to supercurrent conversion, the superconducting equivalent of the Pauli spin blockade. This effect can be exploited in hybrid quantum architectures coupling the quantum states of spin systems and superconducting circuits.",

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AU - Bouman, Daniel

AU - van Gulik, Ruben J. J.

AU - Steffensen, Gorm

AU - Pataki, David

AU - Boross, Peter

AU - Krogstrup, Peter

AU - Nygard, Jesper

AU - Paaske, Jens

AU - Palyi, Andras

AU - Geresdi, Attila

PY - 2020/12/21

Y1 - 2020/12/21

N2 - Serial double quantum dots created in semiconductor nanostructures provide a versatile platform for investigating two-electron spin quantum states, which can be tuned by electrostatic gating and an external magnetic field. In this Rapid Communication, we directly measure the supercurrent reversal between adjacent charge states of an InAs nanowire double quantum dot with superconducting leads, in good agreement with theoretical models. In the even charge parity sector, we observe a supercurrent blockade with increasing magnetic field, corresponding to the spin singlet to triplet transition. Our results demonstrate a direct spin to supercurrent conversion, the superconducting equivalent of the Pauli spin blockade. This effect can be exploited in hybrid quantum architectures coupling the quantum states of spin systems and superconducting circuits.

AB - Serial double quantum dots created in semiconductor nanostructures provide a versatile platform for investigating two-electron spin quantum states, which can be tuned by electrostatic gating and an external magnetic field. In this Rapid Communication, we directly measure the supercurrent reversal between adjacent charge states of an InAs nanowire double quantum dot with superconducting leads, in good agreement with theoretical models. In the even charge parity sector, we observe a supercurrent blockade with increasing magnetic field, corresponding to the spin singlet to triplet transition. Our results demonstrate a direct spin to supercurrent conversion, the superconducting equivalent of the Pauli spin blockade. This effect can be exploited in hybrid quantum architectures coupling the quantum states of spin systems and superconducting circuits.

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