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Interferometric single-shot parity measurement in InAs–Al hybrid devices

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  • Morteza Aghaee

    (Microsoft Azure Quantum)

  • Alejandro Alcaraz Ramirez

    (Microsoft Azure Quantum)

  • Zulfi Alam

    (Microsoft Azure Quantum)

  • Rizwan Ali

    (Microsoft Azure Quantum)

  • Mariusz Andrzejczuk

    (Microsoft Azure Quantum)

  • Andrey Antipov

    (Microsoft Azure Quantum)

  • Mikhail Astafev

    (Microsoft Azure Quantum)

  • Amin Barzegar

    (Microsoft Azure Quantum)

  • Bela Bauer

    (Microsoft Azure Quantum)

  • Jonathan Becker

    (Microsoft Azure Quantum)

  • Umesh Kumar Bhaskar

    (Microsoft Azure Quantum)

  • Alex Bocharov

    (Microsoft Azure Quantum)

  • Srini Boddapati

    (Microsoft Azure Quantum)

  • David Bohn

    (Microsoft Azure Quantum)

  • Jouri Bommer

    (Microsoft Azure Quantum)

  • Leo Bourdet

    (Microsoft Azure Quantum)

  • Arnaud Bousquet

    (Microsoft Azure Quantum)

  • Samuel Boutin

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  • Lucas Casparis

    (Microsoft Azure Quantum)

  • Benjamin J. Chapman

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  • Sohail Chatoor

    (Microsoft Azure Quantum)

  • Anna Wulff Christensen

    (Microsoft Azure Quantum)

  • Cassandra Chua

    (Microsoft Azure Quantum)

  • Patrick Codd

    (Microsoft Azure Quantum)

  • William Cole

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  • Paul Cooper

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  • Fabiano Corsetti

    (Microsoft Azure Quantum)

  • Ajuan Cui

    (Microsoft Azure Quantum)

  • Paolo Dalpasso

    (Microsoft Azure Quantum)

  • Juan Pablo Dehollain

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  • Gijs Lange

    (Microsoft Azure Quantum)

  • Michiel Moor

    (Microsoft Azure Quantum)

  • Andreas Ekefjärd

    (Microsoft Azure Quantum)

  • Tareq El Dandachi

    (Microsoft Azure Quantum)

  • Juan Carlos Estrada Saldaña

    (Microsoft Azure Quantum)

  • Saeed Fallahi

    (Microsoft Azure Quantum)

  • Luca Galletti

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  • Geoff Gardner

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  • Deshan Govender

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  • Flavio Griggio

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  • Ruben Grigoryan

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  • Sebastian Grijalva

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  • Sergei Gronin

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  • Jan Gukelberger

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  • Marzie Hamdast

    (Microsoft Azure Quantum)

  • Firas Hamze

    (Microsoft Azure Quantum)

  • Esben Bork Hansen

    (Microsoft Azure Quantum)

  • Sebastian Heedt

    (Microsoft Azure Quantum)

  • Zahra Heidarnia

    (Microsoft Azure Quantum)

  • Jesús Herranz Zamorano

    (Microsoft Azure Quantum)

  • Samantha Ho

    (Microsoft Azure Quantum)

  • Laurens Holgaard

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  • John Hornibrook

    (Microsoft Azure Quantum)

  • Jinnapat Indrapiromkul

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  • Henrik Ingerslev

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  • Lovro Ivancevic

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  • Jaspreet Jhoja

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  • Jeffrey Jones

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  • Evelyn King

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  • Pasi Kostamo

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  • Mahesh Kumar

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  • Thorvald Larsen

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  • Jason Lee

    (Microsoft Azure Quantum)

  • Kyunghoon Lee

    (Microsoft Azure Quantum)

  • Grant Leum

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  • Kongyi Li

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  • Tyler Lindemann

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  • Matthew Looij

    (Microsoft Azure Quantum)

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  • Marijn Lucas

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  • Roman Lutchyn

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  • Morten Hannibal Madsen

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  • Nash Madulid

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  • Albert Malmros

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  • Michael Manfra

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  • Devashish Mantri

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  • Signe Brynold Markussen

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  • Esteban Martinez

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  • Marco Mattila

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  • Robert McNeil

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  • Antonio B. Mei

    (Microsoft Azure Quantum)

  • Ryan V. Mishmash

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  • Gopakumar Mohandas

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  • Christian Mollgaard

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  • Trevor Morgan

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  • George Moussa

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  • Chetan Nayak

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  • Jens Hedegaard Nielsen

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  • Jens Munk Nielsen

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  • William Hvidtfelt Padkar Nielsen

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  • Bas Nijholt

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  • Mike Nystrom

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  • Eoin O’Farrell

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  • Thomas Ohki

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  • Keita Otani

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  • Brian Paquelet Wütz

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  • Sebastian Pauka

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  • Karl Petersson

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  • Luca Petit

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  • Dima Pikulin

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  • Guen Prawiroatmodjo

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  • Frank Preiss

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  • Eduardo Puchol Morejon

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  • Mohana Rajpalke

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  • Craig Ranta

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  • Katrine Rasmussen

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  • David Razmadze

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  • Outi Reentila

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  • David J. Reilly

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  • Yuan Ren

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  • Ken Reneris

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  • Richard Rouse

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  • Ivan Sadovskyy

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  • Lauri Sainiemi

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  • Irene Sanlorenzo

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  • Emma Schmidgall

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  • Cristina Sfiligoj

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  • Mustafeez Bashir Shah

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  • Kevin Simoes

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  • Shilpi Singh

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  • Sarat Sinha

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  • Thomas Soerensen

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  • Patrick Sohr

    (Microsoft Azure Quantum)

  • Tomas Stankevic

    (Microsoft Azure Quantum)

  • Lieuwe Stek

    (Microsoft Azure Quantum)

  • Eric Stuppard

    (Microsoft Azure Quantum)

  • Henri Suominen

    (Microsoft Azure Quantum)

  • Judith Suter

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  • Sam Teicher

    (Microsoft Azure Quantum)

  • Nivetha Thiyagarajah

    (Microsoft Azure Quantum)

  • Raj Tholapi

    (Microsoft Azure Quantum)

  • Mason Thomas

    (Microsoft Azure Quantum)

  • Emily Toomey

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  • Josh Tracy

    (Microsoft Azure Quantum)

  • Michelle Turley

    (Microsoft Azure Quantum)

  • Shivendra Upadhyay

    (Microsoft Azure Quantum)

  • Ivan Urban

    (Microsoft Azure Quantum)

  • Kevin Hoogdalem

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  • David J. Woerkom

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  • Dmitrii V. Viazmitinov

    (Microsoft Azure Quantum)

  • Dominik Vogel

    (Microsoft Azure Quantum)

  • John Watson

    (Microsoft Azure Quantum)

  • Alex Webster

    (Microsoft Azure Quantum)

  • Joseph Weston

    (Microsoft Azure Quantum)

  • Georg W. Winkler

    (Microsoft Azure Quantum)

  • Di Xu

    (Microsoft Azure Quantum)

  • Chung Kai Yang

    (Microsoft Azure Quantum)

  • Emrah Yucelen

    (Microsoft Azure Quantum)

  • Roland Zeisel

    (Microsoft Azure Quantum)

  • Guoji Zheng

    (Microsoft Azure Quantum)

  • Justin Zilke

    (Microsoft Azure Quantum)

Abstract

The fusion of non-Abelian anyons is a fundamental operation in measurement-only topological quantum computation1. In one-dimensional topological superconductors (1DTSs)2–4, fusion amounts to a determination of the shared fermion parity of Majorana zero modes (MZMs). Here we introduce a device architecture5 that is compatible with future tests of fusion rules. We implement a single-shot interferometric measurement of fermion parity6–11 in indium arsenide–aluminium heterostructures with a gate-defined superconducting nanowire12–14. The interferometer is formed by tunnel-coupling the proximitized nanowire to quantum dots. The nanowire causes a state-dependent shift of the quantum capacitance of these quantum dots of up to 1 fF. Our quantum-capacitance measurements show flux h/2e-periodic bimodality with a signal-to-noise ratio (SNR) of 1 in 3.6 μs at optimal flux values. From the time traces of the quantum-capacitance measurements, we extract a dwell time in the two associated states that is longer than 1 ms at in-plane magnetic fields of approximately 2 T. We discuss the interpretation of our measurements in terms of both topologically trivial and non-trivial origins. The large capacitance shift and long poisoning time enable a parity measurement with an assignment error probability of 1%.

Suggested Citation

  • Morteza Aghaee & Alejandro Alcaraz Ramirez & Zulfi Alam & Rizwan Ali & Mariusz Andrzejczuk & Andrey Antipov & Mikhail Astafev & Amin Barzegar & Bela Bauer & Jonathan Becker & Umesh Kumar Bhaskar & Ale, 2025. "Interferometric single-shot parity measurement in InAs–Al hybrid devices," Nature, Nature, vol. 638(8051), pages 651-655, February.
    • Handle: RePEc:nat:nature:v:638:y:2025:i:8051:d:10.1038_s41586-024-08445-2
    DOI: 10.1038/s41586-024-08445-2
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