On the Approach to Thermal Equilibrium of Macroscopic Quantum Systems

On the Approach to Thermal Equilibrium of Macroscopic Quantum Systems

We consider an isolated, macroscopic quantum system. Let H be a micro-canonical "energy shell," i.e., a subspace of the system's Hilbert space spanned by the (finitely) many energy eigenstates with energies between E and E + delta E. The thermal equilibrium macro-state at energy E cor...

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Veröffentlicht in:arXiv.org 2009-11
Hauptverfasser: Goldstein, Sheldon, Lebowitz, Joel L, Mastrodonato, Christian, Tumulka, Roderich, Zanghi, Nino
Format: Artikel
Sprache:eng
Schlagworte:
Eigenvalues
Eigenvectors
Equilibrium
Hamiltonian functions
Hilbert space
Physics - Quantum Physics
Physics - Statistical Mechanics
Quantum theory
State vectors
Thermal energy
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Zusammenfassung:We consider an isolated, macroscopic quantum system. Let H be a micro-canonical "energy shell," i.e., a subspace of the system's Hilbert space spanned by the (finitely) many energy eigenstates with energies between E and E + delta E. The thermal equilibrium macro-state at energy E corresponds to a subspace H_{eq} of H such that dim H_{eq}/dim H is close to 1. We say that a system with state vector psi in H is in thermal equilibrium if psi is "close" to H_{eq}. We show that for "typical" Hamiltonians with given eigenvalues, all initial state vectors psi_0 evolve in such a way that psi_t is in thermal equilibrium for most times t. This result is closely related to von Neumann's quantum ergodic theorem of 1929.
ISSN:2331-8422
DOI:10.48550/arxiv.0911.1724