Charge Sensing the Parity of an Andreev Molecule

David Van Driel; Bart Roovers; Francesco Zatelli; Alberto Bordin; Guanzhong Wang; Nick Van Loo; Jan Cornelis Wolff; Grzegorz P. Mazur; Leo P. Kouwenhoven; Tom Dvir

doi:10.1103/PRXQuantum.5.020301

Charge Sensing the Parity of an Andreev Molecule

David Van Driel, Bart Roovers, Francesco Zatelli, Alberto Bordin, Guanzhong Wang, Nick Van Loo, Jan Cornelis Wolff, Grzegorz P. Mazur, Leo P. Kouwenhoven, Tom Dvir

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Abstract

The proximity effect of superconductivity on confined states in semiconductors gives rise to various bound states such as Andreev bound states, Andreev molecules, and Majorana zero modes. While such bound states do not conserve charge, their fermion parity is a good quantum number. One way to measure parity is to convert it to charge first, which is then sensed. In this work, we sense the charge of Andreev bound states and Andreev molecules in an InSb-Al hybrid nanowire using an integrated quantum dot operated as a charge sensor. We show how charge sensing measurements can resolve the even and odd states of an Andreev molecule, without affecting the parity. Such an approach can be further used for parity measurements of Majorana zero modes in Kitaev chains based on quantum dots.

Original language	English
Article number	020301
Number of pages	14
Journal	PRX Quantum
Volume	5
Issue number	2
DOIs	https://doi.org/10.1103/PRXQuantum.5.020301
Publication status	Published - 2024

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title = "Charge Sensing the Parity of an Andreev Molecule",

abstract = "The proximity effect of superconductivity on confined states in semiconductors gives rise to various bound states such as Andreev bound states, Andreev molecules, and Majorana zero modes. While such bound states do not conserve charge, their fermion parity is a good quantum number. One way to measure parity is to convert it to charge first, which is then sensed. In this work, we sense the charge of Andreev bound states and Andreev molecules in an InSb-Al hybrid nanowire using an integrated quantum dot operated as a charge sensor. We show how charge sensing measurements can resolve the even and odd states of an Andreev molecule, without affecting the parity. Such an approach can be further used for parity measurements of Majorana zero modes in Kitaev chains based on quantum dots.",

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T1 - Charge Sensing the Parity of an Andreev Molecule

AU - Van Driel, David

AU - Roovers, Bart

AU - Zatelli, Francesco

AU - Bordin, Alberto

AU - Wang, Guanzhong

AU - Van Loo, Nick

AU - Wolff, Jan Cornelis

AU - Mazur, Grzegorz P.

AU - Kouwenhoven, Leo P.

AU - Dvir, Tom

PY - 2024

Y1 - 2024

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AB - The proximity effect of superconductivity on confined states in semiconductors gives rise to various bound states such as Andreev bound states, Andreev molecules, and Majorana zero modes. While such bound states do not conserve charge, their fermion parity is a good quantum number. One way to measure parity is to convert it to charge first, which is then sensed. In this work, we sense the charge of Andreev bound states and Andreev molecules in an InSb-Al hybrid nanowire using an integrated quantum dot operated as a charge sensor. We show how charge sensing measurements can resolve the even and odd states of an Andreev molecule, without affecting the parity. Such an approach can be further used for parity measurements of Majorana zero modes in Kitaev chains based on quantum dots.

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Charge Sensing the Parity of an Andreev Molecule

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