TY - JOUR
T1 - Nonequilibrium dynamics of one-dimensional hard-core anyons following a quench
T2 - Complete relaxation of one-body observables
AU - Wright, Tod M.
AU - Rigol, Marcos
AU - Davis, Matthew J.
AU - Kheruntsyan, Karén V.
PY - 2014/7/29
Y1 - 2014/7/29
N2 - We demonstrate the role of interactions in driving the relaxation of an isolated integrable quantum system following a sudden quench. We consider a family of integrable hard-core lattice anyon models that continuously interpolates between noninteracting spinless fermions and strongly interacting hard-core bosons. A generalized Jordan-Wigner transformation maps the entire family to noninteracting fermions. We find that, aside from the singular free-fermion limit, the entire single-particle density matrix and, therefore, all one-body observables relax to the predictions of the generalized Gibbs ensemble (GGE). This demonstrates that, in the presence of interactions, correlations between particles in the many-body wave function provide the effective dissipation required to drive the relaxation of all one-body observables to the GGE. This relaxation does not depend on translational invariance or the tracing out of any spatial domain of the system.
AB - We demonstrate the role of interactions in driving the relaxation of an isolated integrable quantum system following a sudden quench. We consider a family of integrable hard-core lattice anyon models that continuously interpolates between noninteracting spinless fermions and strongly interacting hard-core bosons. A generalized Jordan-Wigner transformation maps the entire family to noninteracting fermions. We find that, aside from the singular free-fermion limit, the entire single-particle density matrix and, therefore, all one-body observables relax to the predictions of the generalized Gibbs ensemble (GGE). This demonstrates that, in the presence of interactions, correlations between particles in the many-body wave function provide the effective dissipation required to drive the relaxation of all one-body observables to the GGE. This relaxation does not depend on translational invariance or the tracing out of any spatial domain of the system.
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U2 - 10.1103/PhysRevLett.113.050601
DO - 10.1103/PhysRevLett.113.050601
M3 - Article
C2 - 25126906
AN - SCOPUS:84905192284
SN - 0031-9007
VL - 113
JO - Physical review letters
JF - Physical review letters
IS - 5
M1 - 050601
ER -