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Bibliographic Details
Main Authors: Robles-Perez, Salvador J., Castillo-Rivera, Salvador
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.00820
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author Robles-Perez, Salvador J.
Castillo-Rivera, Salvador
author_facet Robles-Perez, Salvador J.
Castillo-Rivera, Salvador
contents This work studies the relationship between parametric amplification (or particle creation), adiabaticity and irreversibility in the non-quasi-static regime of a time-dependent quantum harmonic oscillator (TDHO) that evolves unitarily. We provide analytical results for the evolution of the TDHO valid for any functional value of the frequency, which enables us to monitor the behavior of the thermodynamical magnitudes in the non-quasi-static regime. In the latter, the largest modes of the energy eigenstates commonly undergo a process of spontaneous thermalization, where the concept of temperature naturally arises from the unitary evolution of the oscillator, i.e. without relation to any external source of temperature or thermal bath. As the evolution is unitary, this thermalization process can be reversible, facilitating the monitoring of an unexpected \emph{classical-to-quantum} transition that might entail a quantum violation of the third principle of classical thermodynamics. We adapt the standard definitions of quantum heat and work to account for the change in the populations of the energy levels in the non-quasi-static evolution of the TDHO.
format Preprint
id arxiv_https___arxiv_org_abs_2512_00820
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle An approach to study the adiabaticity and irreversibility in the TDHO
Robles-Perez, Salvador J.
Castillo-Rivera, Salvador
Quantum Physics
This work studies the relationship between parametric amplification (or particle creation), adiabaticity and irreversibility in the non-quasi-static regime of a time-dependent quantum harmonic oscillator (TDHO) that evolves unitarily. We provide analytical results for the evolution of the TDHO valid for any functional value of the frequency, which enables us to monitor the behavior of the thermodynamical magnitudes in the non-quasi-static regime. In the latter, the largest modes of the energy eigenstates commonly undergo a process of spontaneous thermalization, where the concept of temperature naturally arises from the unitary evolution of the oscillator, i.e. without relation to any external source of temperature or thermal bath. As the evolution is unitary, this thermalization process can be reversible, facilitating the monitoring of an unexpected \emph{classical-to-quantum} transition that might entail a quantum violation of the third principle of classical thermodynamics. We adapt the standard definitions of quantum heat and work to account for the change in the populations of the energy levels in the non-quasi-static evolution of the TDHO.
title An approach to study the adiabaticity and irreversibility in the TDHO
topic Quantum Physics
url https://arxiv.org/abs/2512.00820