1957
DOI: 10.1103/physrev.107.337
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Quantum Recurrence Theorem

Abstract: A recurrence theorem is proved, which is the quantum analog of the recurrence theorem of Poincare\ Some statistical consequences of the theorem are stressed. I T is well known that in classical mechanics the following recurrence theorem holds, due to Poincare" (1890) 1 : "Any phase-space configuration (q,p) of a system enclosed in a finite volume will be repeated as accurately as one wishes after a finite (be it possibly very long) interval of time. ,, In this paper we shall show that a similar recurrence theo… Show more

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Cited by 262 publications
(252 citation statements)
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“…A finite system such as we consider here does not exhibit true relaxation, in which the instantaneous density matrix of the system (and therefore all observables) becomes stationary in the long-time limit t → ∞, but will instead exhibit recurrences [96,97]. However, the dephasing of the energy eigenstates is expected to lead, quite generically, to observables fluctuating about reasonably well-defined mean values consistent with the DE predictions [68].…”
Section: Dynamics Following An Interaction-strength Quenchmentioning
confidence: 99%
“…A finite system such as we consider here does not exhibit true relaxation, in which the instantaneous density matrix of the system (and therefore all observables) becomes stationary in the long-time limit t → ∞, but will instead exhibit recurrences [96,97]. However, the dephasing of the energy eigenstates is expected to lead, quite generically, to observables fluctuating about reasonably well-defined mean values consistent with the DE predictions [68].…”
Section: Dynamics Following An Interaction-strength Quenchmentioning
confidence: 99%
“…where Ψ(T ) = |Ψ T is the state of the system after time T , Ψ( 0 ) = |Ψ 0 is the initial state of the system and is any positive number ≤ 2 (both Ψ(T ) and Ψ( 0 ) are normalized functions) [4,5]. The recurrence of complete state of the system or the exact revival happens when all the expectation values of observables A of the two states |Ψ T and |Ψ 0 are equal, that is,…”
Section: Quantum Recurrence Theoremmentioning
confidence: 99%
“…As an open quantum system and its thermal bath with a finite number of modes together form an isolated system which conserves the energy, according to the Poincaré recurrence theorem [3], the quantum system will eventually return to a state very close to its initial state. To circumvent this recurrence, the bath has to be expanded to contain an infinite number of phonon modes.…”
Section: Introductionmentioning
confidence: 99%