Saved in:
Bibliographic Details
Main Authors: Wood, Carolyn E., Verma, Harshit, Costa, Fabio, Zych, Magdalena
Format: Preprint
Published: 2021
Subjects:
Online Access:https://arxiv.org/abs/2112.07860
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866908744947859456
author Wood, Carolyn E.
Verma, Harshit
Costa, Fabio
Zych, Magdalena
author_facet Wood, Carolyn E.
Verma, Harshit
Costa, Fabio
Zych, Magdalena
contents A quantum system and a thermal bath can reach thermal equilibrium through an interaction, whereupon the system acquires the same temperature as the bath. But how does a delocalised quantum system thermalise with a bath whose local temperature varies, as, for example, in the Tolman effect? Here we formulate two scenarios in which the notion of a ``superposition of temperatures'' may arise. First: a probe interacting with two different baths dependent on the state of another quantum system (control). Second: a probe interacting with a single bath whose purified state is a superposition of states corresponding to different temperatures. We show that the two scenarios are fundamentally different and can be operationally distinguished. Moreover, we show that the probe does not in general thermalise even when the involved temperatures are equal, and that the final probe state is sensitive to the specific realisation of the thermalising channels. Our models may be applied to scenarios involving joint quantum, gravitational, and thermodynamic phenomena, and explain some recent results found in quantum intereference of relativistic probes thermalising with Unruh or Hawking radiation. Finally, we show that our results are reproduced in partial and pre-thermalisation processes, and thus our approach and conclusions hold beyond the idealised scenarios, where thermalisation is incomplete.
format Preprint
id arxiv_https___arxiv_org_abs_2112_07860
institution arXiv
publishDate 2021
record_format arxiv
spellingShingle Operational models of temperature superpositions
Wood, Carolyn E.
Verma, Harshit
Costa, Fabio
Zych, Magdalena
Quantum Physics
A quantum system and a thermal bath can reach thermal equilibrium through an interaction, whereupon the system acquires the same temperature as the bath. But how does a delocalised quantum system thermalise with a bath whose local temperature varies, as, for example, in the Tolman effect? Here we formulate two scenarios in which the notion of a ``superposition of temperatures'' may arise. First: a probe interacting with two different baths dependent on the state of another quantum system (control). Second: a probe interacting with a single bath whose purified state is a superposition of states corresponding to different temperatures. We show that the two scenarios are fundamentally different and can be operationally distinguished. Moreover, we show that the probe does not in general thermalise even when the involved temperatures are equal, and that the final probe state is sensitive to the specific realisation of the thermalising channels. Our models may be applied to scenarios involving joint quantum, gravitational, and thermodynamic phenomena, and explain some recent results found in quantum intereference of relativistic probes thermalising with Unruh or Hawking radiation. Finally, we show that our results are reproduced in partial and pre-thermalisation processes, and thus our approach and conclusions hold beyond the idealised scenarios, where thermalisation is incomplete.
title Operational models of temperature superpositions
topic Quantum Physics
url https://arxiv.org/abs/2112.07860