Masayuki Ohzeki, Hidestoshi Nishimori
Published 2011-02-10, updated 2011-04-04Version 2
Quantum annealing is a generic solver of classical optimization problems that makes full use of quantum fluctuations. We consider work statistics given by a repetition of quantum annealing processes by employing the Jarzynski equality proposed in nonequilibrium statistical physics. In particular, we analyze the distribution of the work performed by a transverse field. A special symmetry, gauge symmetry, leads to a non-trivial relationship between quantum annealing toward different targets in the theory of spin glasses. We believe that our results will be a step toward an alternative realization of efficient quantum computation as well as our better understanding of nonequilibrium behavior of systems under quantum control.
Comments: 4pages, Proceedings of International Symposium "Nanoscience and Quantum Physics 2011" (nanoPHYS'11) Title is changed and some typos are fixed
Nonequilibrium work on spin glasses in longitudinal and transverse fields
Dynamics of spin glass formation under tunable fluctuations in frustrated cavity QED experiments
Quantum fluctuations in the transverse Ising spin glass model: A field theory of random quantum spin systems
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