Giuseppe E. Santoro, Roman Martonak, Erio Tosatti, Roberto Car
Published 2002-05-14Version 1
Probing the lowest energy configuration of a complex system by quantum annealing was recently found to be more effective than its classical, thermal counterpart. Comparing classical and quantum Monte Carlo annealing protocols on the random two-dimensional Ising model we confirm the superiority of quantum annealing relative to classical annealing. We also propose a theory of quantum annealing, based on a cascade of Landau-Zener tunneling events. For both classical and quantum annealing, the residual energy after annealing is inversely proportional to a power of the logarithm of the annealing time, but the quantum case has a larger power which makes it faster
Comments: RevTex, 8 pages, 3 figures
Journal: SCIENCE, vol 295, pp. 2427-2430 (29 March 2002) (with minor differences)
Microscopic Properties of Quantum Annealing -- Application to Fully Frustrated Ising Systems
Quantum annealing: An introduction and new developments
Quantum Annealing: from Viewpoints of Statistical Physics, Condensed Matter Physics, and Computational Physics
