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W4308481723 abstract "Zero-noise extrapolation is a quantum error mitigation technique that has typically been studied under the ideal approximation that the noise acting on a quantum device is not time-correlated. In this work, we investigate the feasibility and performance of zero-noise extrapolation in the presence of time-correlated noise. We show that, in contrast to white noise, time-correlated noise is harder to mitigate via zero-noise extrapolation because it is difficult to scale the noise level without also modifying its spectral distribution. This limitation is particularly strong if local gate-level methods are applied for noise scaling. However, we find that global noise scaling methods, e.g., global unitary folding, can be sufficiently reliable even in the presence of time-correlated noise. We also introduce gate Trotterization as a new noise scaling technique that may be of independent interest." @default.
W4308481723 created "2022-11-12" @default.
W4308481723 creator A5014916014 @default.
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W4308481723 creator A5062370496 @default.
W4308481723 creator A5081668362 @default.
W4308481723 date "2022-11-03" @default.
W4308481723 modified "2023-10-15" @default.
W4308481723 title "Impact of time-correlated noise on zero-noise extrapolation" @default.
W4308481723 cites W1488990279 @default.
W4308481723 cites W1492999010 @default.
W4308481723 cites W1499848126 @default.
W4308481723 cites W1912652904 @default.
W4308481723 cites W1969211920 @default.
W4308481723 cites W1971160181 @default.
W4308481723 cites W1971185946 @default.
W4308481723 cites W1972883454 @default.
W4308481723 cites W1978533437 @default.
W4308481723 cites W1981596913 @default.
W4308481723 cites W1984389414 @default.
W4308481723 cites W1992629111 @default.
W4308481723 cites W1998243191 @default.
W4308481723 cites W2003132673 @default.
W4308481723 cites W2006658271 @default.
W4308481723 cites W2009523960 @default.
W4308481723 cites W2010069877 @default.
W4308481723 cites W2011876234 @default.
W4308481723 cites W2017293193 @default.
W4308481723 cites W2017964195 @default.
W4308481723 cites W2020347728 @default.
W4308481723 cites W2020379894 @default.
W4308481723 cites W2041506125 @default.
W4308481723 cites W2044154164 @default.
W4308481723 cites W2067910209 @default.
W4308481723 cites W2071470060 @default.
W4308481723 cites W2076283593 @default.
W4308481723 cites W2080002278 @default.
W4308481723 cites W2084547601 @default.
W4308481723 cites W2100129648 @default.
W4308481723 cites W2107050628 @default.
W4308481723 cites W2117302943 @default.
W4308481723 cites W2123364531 @default.
W4308481723 cites W2134322375 @default.
W4308481723 cites W2137147061 @default.
W4308481723 cites W2174510006 @default.
W4308481723 cites W2197698711 @default.
W4308481723 cites W2268604949 @default.
W4308481723 cites W2501142942 @default.
W4308481723 cites W2518420053 @default.
W4308481723 cites W2549030951 @default.
W4308481723 cites W2559394418 @default.
W4308481723 cites W2562526363 @default.
W4308481723 cites W2607911764 @default.
W4308481723 cites W2616974032 @default.
W4308481723 cites W2781738013 @default.
W4308481723 cites W2784059933 @default.
W4308481723 cites W2792514889 @default.
W4308481723 cites W2793329535 @default.
W4308481723 cites W2884173913 @default.
W4308481723 cites W2923370183 @default.
W4308481723 cites W2964148776 @default.
W4308481723 cites W2975540947 @default.
W4308481723 cites W3010941104 @default.
W4308481723 cites W3037303154 @default.
W4308481723 cites W3037443854 @default.
W4308481723 cites W3098581063 @default.
W4308481723 cites W3098623819 @default.
W4308481723 cites W3101119258 @default.
W4308481723 cites W3101625830 @default.
W4308481723 cites W3102327618 @default.
W4308481723 cites W3103810096 @default.
W4308481723 cites W3103872322 @default.
W4308481723 cites W3103966002 @default.
W4308481723 cites W3104599990 @default.
W4308481723 cites W3104780784 @default.
W4308481723 cites W3139635310 @default.
W4308481723 cites W3166270952 @default.
W4308481723 cites W3185958304 @default.
W4308481723 cites W3188645505 @default.
W4308481723 cites W3200317124 @default.
W4308481723 cites W3213056870 @default.
W4308481723 cites W3213697281 @default.
W4308481723 cites W4206310632 @default.
W4308481723 cites W4226145816 @default.
W4308481723 cites W4292229444 @default.
W4308481723 cites W2092106324 @default.
W4308481723 doi "https://doi.org/10.1103/physreva.106.052406" @default.
W4308481723 hasPublicationYear "2022" @default.
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