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. 2021 Dec 17;374(6574):1479-1483.
doi: 10.1126/science.abg5029. Epub 2021 Oct 28.

Information scrambling in quantum circuits

Xiao Mi #  1 Pedram Roushan #  1 Chris Quintana #  1 Salvatore Mandrà  2   3 Jeffrey Marshall  2   4 Charles Neill  1 Frank Arute  1 Kunal Arya  1 Juan Atalaya  1 Ryan Babbush  1 Joseph C Bardin  1   5 Rami Barends  1 Joao Basso  1 Andreas Bengtsson  1 Sergio Boixo  1 Alexandre Bourassa  1   6 Michael Broughton  1 Bob B Buckley  1 David A Buell  1 Brian Burkett  1 Nicholas Bushnell  1 Zijun Chen  1 Benjamin Chiaro  1 Roberto Collins  1 William Courtney  1 Sean Demura  1 Alan R Derk  1 Andrew Dunsworth  1 Daniel Eppens  1 Catherine Erickson  1 Edward Farhi  1 Austin G Fowler  1 Brooks Foxen  1 Craig Gidney  1 Marissa Giustina  1 Jonathan A Gross  1 Matthew P Harrigan  1 Sean D Harrington  1 Jeremy Hilton  1 Alan Ho  1 Sabrina Hong  1 Trent Huang  1 William J Huggins  1 L B Ioffe  1 Sergei V Isakov  1 Evan Jeffrey  1 Zhang Jiang  1 Cody Jones  1 Dvir Kafri  1 Julian Kelly  1 Seon Kim  1 Alexei Kitaev  1   7 Paul V Klimov  1 Alexander N Korotkov  1   8 Fedor Kostritsa  1 David Landhuis  1 Pavel Laptev  1 Erik Lucero  1 Orion Martin  1 Jarrod R McClean  1 Trevor McCourt  1 Matt McEwen  1   9 Anthony Megrant  1 Kevin C Miao  1 Masoud Mohseni  1 Shirin Montazeri  1 Wojciech Mruczkiewicz  1 Josh Mutus  1 Ofer Naaman  1 Matthew Neeley  1 Michael Newman  1 Murphy Yuezhen Niu  1 Thomas E O'Brien  1 Alex Opremcak  1 Eric Ostby  1 Balint Pato  1 Andre Petukhov  1 Nicholas Redd  1 Nicholas C Rubin  1 Daniel Sank  1 Kevin J Satzinger  1 Vladimir Shvarts  1 Doug Strain  1 Marco Szalay  1 Matthew D Trevithick  1 Benjamin Villalonga  1 Theodore White  1 Z Jamie Yao  1 Ping Yeh  1 Adam Zalcman  1 Hartmut Neven  1 Igor Aleiner  1 Kostyantyn Kechedzhi  1 Vadim Smelyanskiy  1 Yu Chen  1
Affiliations

Information scrambling in quantum circuits

Xiao Mi et al. Science. .

Abstract

Interactions in quantum systems can spread initially localized quantum information into the exponentially many degrees of freedom of the entire system. Understanding this process, known as quantum scrambling, is key to resolving several open questions in physics. Here, by measuring the time-dependent evolution and fluctuation of out-of-time-order correlators, we experimentally investigate the dynamics of quantum scrambling on a 53-qubit quantum processor. We engineer quantum circuits that distinguish operator spreading and operator entanglement and experimentally observe their respective signatures. We show that whereas operator spreading is captured by an efficient classical model, operator entanglement in idealized circuits requires exponentially scaled computational resources to simulate. These results open the path to studying complex and practically relevant physical observables with near-term quantum processors.

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