Clausius inequality versus quantum coherence
Quantum Physics
2019-07-02 v1
Abstract
In this study, we model a harmonic oscillator that enters an interferometer partially coupled to a thermal bath of oscillatory fields by employing a Brownian-type Lindblad master equation. More specifically, we investigate the dynamics and the variations of the thermodynamic quantities of the system at different temperatures. We recognize that although the system can remain coherent during its interaction with the thermal bath in the low-temperature limit, the system's entropy production violates the Clausius inequality. Furthermore, we argue that the system's coherence is the source of this violation, rather than the entanglement degree of system-environment, as reported in previous studies.
Cite
@article{arxiv.1906.10940,
title = {Clausius inequality versus quantum coherence},
author = {Ali Soltanmanesh and Afshin Shafiee},
journal= {arXiv preprint arXiv:1906.10940},
year = {2019}
}