Eigenstate thermalization hypothesis and quantum Jarzynski relation for pure initial states
Autor(en): | Jin, F. Steinigeweg, R. De Raedt, H. Michielsen, K. Campisi, M. Gemmer, J. |
Stichwörter: | DEPENDENT SCHRODINGER-EQUATION; FLUCTUATION THEOREMS; FOUNDATIONS; MANY-BODY SYSTEMS; Physics; Physics, Fluids & Plasmas; Physics, Mathematical; STATISTICAL-MECHANICS; THERMODYNAMICS | Erscheinungsdatum: | 2016 | Herausgeber: | AMER PHYSICAL SOC | Journal: | PHYSICAL REVIEW E | Volumen: | 94 | Ausgabe: | 1 | Zusammenfassung: | Since the first suggestion of the Jarzynski equality many derivations of this equality have been presented in both the classical and the quantum context. While the approaches and settings differ greatly from one another, they all appear to rely on the condition that the initial state is a thermal Gibbs state. Here, we present an investigation of work distributions in driven isolated quantum systems, starting from pure states that are close to energy eigenstates of the initial Hamiltonian. We find that, for the nonintegrable quantum ladder studied, the Jarzynski equality is fulfilled to a good accuracy. |
ISSN: | 24700045 | DOI: | 10.1103/PhysRevE.94.012125 |
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geprüft am 19.05.2024