Removing leakage-induced correlated errors in superconducting quantum error correction

M. McEwen; D. Kafri; Z. Chen; J. Atalaya; K. J. Satzinger; C. Quintana; P. V. Klimov; D. Sank; C. Gidney; A. G. Fowler; F. Arute; K. Arya; B. Buckley; B. Burkett; N. Bushnell; B. Chiaro; R. Collins; S. Demura; A. Dunsworth; C. Erickson; B. Foxen; M. Giustina; T. Huang; S. Hong; E. Jeffrey; S. Kim; K. Kechedzhi; F. Kostritsa; P. Laptev; A. Megrant; X. Mi; J. Mutus; O. Naaman; M. Neeley; C. Neill; M. Niu; A. Paler; N. Redd; P. Roushan; T. C. White; J. Yao; P. Yeh; A. Zalcman; Yu Chen; V. N. Smelyanskiy; John M. Martinis; H. Neven; J. Kelly; A. N. Korotkov; A. G. Petukhov; R. Barends

doi:10.1038/s41467-021-21982-y

Nature Communications (Mar 2021)

Removing leakage-induced correlated errors in superconducting quantum error correction

M. McEwen,
D. Kafri,
Z. Chen,
J. Atalaya,
K. J. Satzinger,
C. Quintana,
P. V. Klimov,
D. Sank,
C. Gidney,
A. G. Fowler,
F. Arute,
K. Arya,
B. Buckley,
B. Burkett,
N. Bushnell,
B. Chiaro,
R. Collins,
S. Demura,
A. Dunsworth,
C. Erickson,
B. Foxen,
M. Giustina,
T. Huang,
S. Hong,
E. Jeffrey,
S. Kim,
K. Kechedzhi,
F. Kostritsa,
P. Laptev,
A. Megrant,
X. Mi,
J. Mutus,
O. Naaman,
M. Neeley,
C. Neill,
M. Niu,
A. Paler,
N. Redd,
P. Roushan,
T. C. White,
J. Yao,
P. Yeh,
A. Zalcman,
Yu Chen,
V. N. Smelyanskiy,
John M. Martinis,
H. Neven,
J. Kelly,
A. N. Korotkov,
A. G. Petukhov,
R. Barends

Affiliations

M. McEwen: Department of Physics, University of California
D. Kafri: Google
Z. Chen: Google
J. Atalaya: Google
K. J. Satzinger: Google
C. Quintana: Google
P. V. Klimov: Google
D. Sank: Google
C. Gidney: Google
A. G. Fowler: Google
F. Arute: Google
K. Arya: Google
B. Buckley: Google
B. Burkett: Google
N. Bushnell: Google
B. Chiaro: Google
R. Collins: Google
S. Demura: Google
A. Dunsworth: Google
C. Erickson: Google
B. Foxen: Google
M. Giustina: Google
T. Huang: Google
S. Hong: Google
E. Jeffrey: Google
S. Kim: Google
K. Kechedzhi: Google
F. Kostritsa: Google
P. Laptev: Google
A. Megrant: Google
X. Mi: Google
J. Mutus: Google
O. Naaman: Google
M. Neeley: Google
C. Neill: Google
M. Niu: Google
A. Paler: Johannes Kepler University
N. Redd: Google
P. Roushan: Google
T. C. White: Google
J. Yao: Google
P. Yeh: Google
A. Zalcman: Google
Yu Chen: Google
V. N. Smelyanskiy: Google
John M. Martinis: Department of Physics, University of California
H. Neven: Google
J. Kelly: Google
A. N. Korotkov: Google
A. G. Petukhov: Google
R. Barends: Google

DOI: https://doi.org/10.1038/s41467-021-21982-y
Journal volume & issue: Vol. 12, no. 1
pp. 1 – 7

Abstract

Read online

Correlated errors coming from leakage out of the computational subspace are an obstacle to fault-tolerant superconducting circuits. Here, the authors use a multi-level reset protocol to improve the performances of a bit-flip error correcting code by reducing the magnitude of correlations.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

About the journal