Interferometric Single-Shot Parity Measurement in an InAs-Al Hybrid Device

M. Aghaee; Alejandro Alcaraz Ramirez; Zulfi Alam; Rizwan Ali; Mariusz Andrzejczuk; Andrey Antipov; M. Astafev; Amin Barzegar; Bela Bauer; Jonathan Becker; U. Bhaskar; Alex Bocharov; S. Boddapati; David Bohn; Jouri D. S. Bommer; L. Bourdet; Arnaud Bousquet; Samuel Boutin; Lucas Casparis; Benjamin James Chapman; S. Chatoor; Anna Wulff Christensen; Cassandra Chua; Patrick Codd; William Cole; Paul Cooper; Fabiano Corsetti; Ajuan Cui; Paolo Dalpasso; J. P. Dehollain; Gijs de Lange (gidelang); M. Moor; Andreas Ekefjard; Tareq El Dandachi; J. C. E. Saldaña; S. Fallahi; L. Galletti; Geoff Gardner; D. Govender; F. Griggio; Ruben Grigoryan; Sebastian Grijalva; Sergei Gronin; Jan Gukelberger; Marzie Hamdast; Firasamine Hamze; Esben Bork Hansen; Sebastian Heedt (seheedt); Zahra Heidarnia; Jes'us Herranz Zamorano; Samantha Ho; Laurens Holgaard; John Hornibrook; Jinnapat Indrapiromkul; Henrik Ingerslev; Lovro Ivancevic; Thomas Jensen; Jaspreet Jhoja; Jeffrey Jones; Konstantin V. Kalashnikov; Ray Kallaher; R. Kalra; Farhad Karimi; Torsten Karzig; Evelyn King; M. E. Kloster; Christina Knapp; D. Kocoń; J. Koski; P. Kostamo; Mahesh Kumar; T. Laeven; T. Larsen; Jason Lee; Kyunghoon Lee; Grant Leum; Kongyi Li; T. Lindemann; Matthew Looij; J. Love; Marijn Lucas; Roman Lutchyn; Morten Hannibal Madsen; Nash Madulid; Albert Malmros; M. Manfra; Devashish Mantri; S. Markussen; Esteban Martinez; Marco Mattila; R. McNeil; Antonio Rodolph Mei; R. Mishmash; Gopakumar Mohandas; Christian Mollgaard; Trevor Morgan; George Moussa; Dr. Chetan Nayak; Jens Nielsen; Jens Munk Nielsen; William HP Nielsen; B. Nijholt; Mike Nystrom; Eoin O'Farrell; Thomas Ohki; K. Otani; Brian Paquelet Wutz; S. Pauka; Karl Petersson; Luca Petit; D. Pikulin; G. Prawiroatmodjo; F. Preiss; Eduardo Puchol Morejon; Mohana Rajpalke; Craig Ranta; K. Rasmussen; David Razmadze; Outi Reentila; David Reilly; Yuan Ren; Ken Reneris; Richard Rouse; Ivan Sadovskyy (ivsadovs); L. Sainiemi; I. Sanlorenzo; E. Schmidgall; Cristina Sfiligoj; Mustafeez Bashir Shah; Kevin Simoes; Shilpi Singh; Sarat Sinha; Thomas Soerensen; P. Sohr; T. Stankevič; Lieuwe Stek; Eric Stuppard; H. Suominen; Judith Suter; Sam Teicher; Nivetha Thiyagarajah; R. Tholapi; Mason Thomas; Emily A Toomey; Josh Tracy; Michelle Turley; Shivendra Upadhyay; Ivica Urban; Kevin Van Hoogdalem; David Van Woerkom; D. Viazmitinov; Dominik Vogel; John Watson; Alex Webster; Joseph Weston; Georg Wolfgang Winkler; Di Xu; Chung Kai Yang; Emrah Yücelen; R. Zeisel; Guoji Zheng; Justin Zilke

Interferometric Single-Shot Parity Measurement in an InAs-Al Hybrid Device

M. Aghaee ,
Alejandro Alcaraz Ramirez ,
Zulfi Alam ,
Rizwan Ali ,
Mariusz Andrzejczuk ,
Andrey Antipov ,
M. Astafev ,
Amin Barzegar ,
Bela Bauer ,
Jonathan Becker ,
U. Bhaskar ,
Alex Bocharov ,
S. Boddapati ,
David Bohn ,
Jouri D. S. Bommer ,
L. Bourdet ,
Arnaud Bousquet ,
Samuel Boutin ,
Lucas Casparis ,
Benjamin James Chapman ,
S. Chatoor ,
Anna Wulff Christensen ,
Cassandra Chua ,
Patrick Codd ,
William Cole ,
Paul Cooper ,
Fabiano Corsetti ,
Ajuan Cui ,
Paolo Dalpasso ,
J. P. Dehollain ,
Gijs de Lange (gidelang) ,
M. Moor ,
Andreas Ekefjard ,
Tareq El Dandachi ,
J. C. E. Saldaña ,
S. Fallahi ,
L. Galletti ,
Geoff Gardner ,
D. Govender ,
F. Griggio ,
Ruben Grigoryan ,
Sebastian Grijalva ,
Sergei Gronin ,
Jan Gukelberger ,
Marzie Hamdast ,
Firasamine Hamze ,
Esben Bork Hansen ,
Sebastian Heedt (seheedt) ,
Zahra Heidarnia ,
Jes'us Herranz Zamorano ,
Samantha Ho ,
Laurens Holgaard ,
John Hornibrook ,
Jinnapat Indrapiromkul ,
Henrik Ingerslev ,
Lovro Ivancevic ,
Thomas Jensen ,
Jaspreet Jhoja ,
Jeffrey Jones ,
Konstantin V. Kalashnikov ,
Ray Kallaher ,
R. Kalra ,
Farhad Karimi ,
Torsten Karzig ,
Evelyn King ,
M. E. Kloster ,
Christina Knapp ,
D. Kocoń ,
J. Koski ,
P. Kostamo ,
Mahesh Kumar ,
T. Laeven ,
T. Larsen ,
Jason Lee ,
Kyunghoon Lee ,
Grant Leum ,
Kongyi Li ,
T. Lindemann ,
Matthew Looij ,
J. Love ,
Marijn Lucas ,
Roman Lutchyn ,
Morten Hannibal Madsen ,
Nash Madulid ,
Albert Malmros ,
M. Manfra ,
Devashish Mantri ,
S. Markussen ,
Esteban Martinez ,
Marco Mattila ,
R. McNeil ,
Antonio Rodolph Mei ,
R. Mishmash ,
Gopakumar Mohandas ,
Christian Mollgaard ,
Trevor Morgan ,
George Moussa ,
Dr. Chetan Nayak ,
Jens Nielsen ,
Jens Munk Nielsen ,
William HP Nielsen ,
B. Nijholt ,
Mike Nystrom ,
Eoin O'Farrell ,
Thomas Ohki ,
K. Otani ,
Brian Paquelet Wutz ,
S. Pauka ,
Karl Petersson ,
Luca Petit ,
D. Pikulin ,
G. Prawiroatmodjo ,
F. Preiss ,
Eduardo Puchol Morejon ,
Mohana Rajpalke ,
Craig Ranta ,
K. Rasmussen ,
David Razmadze ,
Outi Reentila ,
David Reilly ,
Yuan Ren ,
Ken Reneris ,
Richard Rouse ,
Ivan Sadovskyy (ivsadovs) ,
L. Sainiemi ,
I. Sanlorenzo ,
E. Schmidgall ,
Cristina Sfiligoj ,
Mustafeez Bashir Shah ,
Kevin Simoes ,
Shilpi Singh ,
Sarat Sinha ,
Thomas Soerensen ,
P. Sohr ,
T. Stankevič ,
Lieuwe Stek ,
Eric Stuppard ,
H. Suominen ,
Judith Suter ,
Sam Teicher ,
Nivetha Thiyagarajah ,
R. Tholapi ,
Mason Thomas ,
Emily A Toomey ,
Josh Tracy ,
Michelle Turley ,
Shivendra Upadhyay ,
Ivica Urban ,
Kevin Van Hoogdalem ,
David Van Woerkom ,
D. Viazmitinov ,
Dominik Vogel ,
John Watson ,
Alex Webster ,
Joseph Weston ,
Georg Wolfgang Winkler ,
Di Xu ,
Chung Kai Yang ,
Emrah Yücelen ,
R. Zeisel ,
Guoji Zheng ,
Justin Zilke

April 2024

arXiv

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The fusion of non-Abelian anyons or topological defects is a fundamental operation in measurement-only topological quantum computation. In topological superconductors, this operation amounts to a determination of the shared fermion parity of Majorana zero modes. As a step towards this, we implement a single-shot interferometric measurement of fermion parity in indium arsenide-aluminum heterostructures with a gate-defined nanowire. The interferometer is formed by tunnel-coupling the proximitized nanowire to quantum dots. The nanowire causes a state-dependent shift of these quantum dots’ quantum capacitance of up to 1 fF. Our quantum capacitance measurements show flux h/2e-periodic bimodality with a signal-to-noise ratio of 1 in 3.7 $\mu$s 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. These results are consistent with a measurement of the fermion parity encoded in a pair of Majorana zero modes that are separated by approximately 3 $\mu$m and subjected to a low rate of poisoning by non-equilibrium quasiparticles. The large capacitance shift and long poisoning time enable a parity measurement error probability of 1%.