Quantum annealing and thermalization: insights from integrability

Fuxiang Li; Nikolai Sinitsyn; Vladimir Y Chernyak

Quantum annealing and thermalization: insights from integrability

ORAL

Abstract

We solve a model that has basic features that {are desired for quantum annealing computations: entanglement in the ground state,} controllable annealing speed, ground state energy separated by a gap during the whole evolution, and programmable computational problem that is encoded by parameters of the Ising part of the spin Hamiltonian. Our solution enables exact nonperturbative characterization of final nonadiabatic excitations, including scaling of their number with the annealing rate and the system size.

March 7, 2019, 9:48 AM – March 7, 2019, 10:00 AM

Presenters

Fuxiang Li

School of Physics and Electronics, Hunan University

Authors

Fuxiang Li

School of Physics and Electronics, Hunan University
Nikolai Sinitsyn

Theoretical Division, Los Alamos National Laboratory, Theoretical division, Los Alamos National Lab, Los Alamos National Laborary
Vladimir Y Chernyak

Department of Chemistry and Department of Mathematics, Wayne State University