Quantum critical dynamics in a 5,000-qubit programmable spin glass

Andrew D King¹, Jack Raymond², Trevor Lanting², Richard Harris², Alex Zucca², Fabio Altomare², Andrew J Berkley², Kelly Boothby², Sara Ejtemaee², Colin Enderud², Emile Hoskinson², Shuiyuan Huang², Eric Ladizinsky², Allison J R MacDonald², Gaelen Marsden², Reza Molavi², Travis Oh², Gabriel Poulin-Lamarre², Mauricio Reis², Chris Rich², Yuki Sato², Nicholas Tsai², Mark Volkmann², Jed D Whittaker², Jason Yao², Anders W Sandvik³, Mohammad H Amin^{4

5}

Affiliations

¹ D-Wave Quantum Inc., Burnaby, British Columbia, Canada. aking@dwavesys.com.
² D-Wave Quantum Inc., Burnaby, British Columbia, Canada.
³ Department of Physics, Boston University, Boston, MA, USA. sandvik@buphy.bu.edu.
⁴ D-Wave Quantum Inc., Burnaby, British Columbia, Canada. mhsamin@dwavesys.com.
⁵ Department of Physics, Simon Fraser University, Burnaby, British Columbia, Canada. mhsamin@dwavesys.com.

PMID: 37076625
DOI: 10.1038/s41586-023-05867-2

Quantum critical dynamics in a 5,000-qubit programmable spin glass

Andrew D King et al. Nature. 2023 May.

. 2023 May;617(7959):61-66.

doi: 10.1038/s41586-023-05867-2. Epub 2023 Apr 19.

Authors

Affiliations

¹ D-Wave Quantum Inc., Burnaby, British Columbia, Canada. aking@dwavesys.com.
² D-Wave Quantum Inc., Burnaby, British Columbia, Canada.
³ Department of Physics, Boston University, Boston, MA, USA. sandvik@buphy.bu.edu.
⁴ D-Wave Quantum Inc., Burnaby, British Columbia, Canada. mhsamin@dwavesys.com.
⁵ Department of Physics, Simon Fraser University, Burnaby, British Columbia, Canada. mhsamin@dwavesys.com.

PMID: 37076625
DOI: 10.1038/s41586-023-05867-2

Abstract

Experiments on disordered alloys^1-3 suggest that spin glasses can be brought into low-energy states faster by annealing quantum fluctuations than by conventional thermal annealing. Owing to the importance of spin glasses as a paradigmatic computational testbed, reproducing this phenomenon in a programmable system has remained a central challenge in quantum optimization^4-13. Here we achieve this goal by realizing quantum-critical spin-glass dynamics on thousands of qubits with a superconducting quantum annealer. We first demonstrate quantitative agreement between quantum annealing and time evolution of the Schrödinger equation in small spin glasses. We then measure dynamics in three-dimensional spin glasses on thousands of qubits, for which classical simulation of many-body quantum dynamics is intractable. We extract critical exponents that clearly distinguish quantum annealing from the slower stochastic dynamics of analogous Monte Carlo algorithms, providing both theoretical and experimental support for large-scale quantum simulation and a scaling advantage in energy optimization.

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References

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1. Aeppli, G. & Rosenbaum, T. F. in Quantum Annealing and Related Optimization Methods (eds Das, A. & Chakrabarti, B.) Ch. 6 (Springer, 2005).
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1. Santoro, G. E., Martonák, R., Tosatti, E. & Car, R. Theory of quantum annealing of an Ising spin glass. Science 295, 2427–2430 (2002). - PubMed - DOI

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Quantum critical dynamics in a 5,000-qubit programmable spin glass

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Quantum critical dynamics in a 5,000-qubit programmable spin glass

Authors

Affiliations

Abstract

References

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LinkOut - more resources

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