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Bibliographic Details
Main Authors: Alvim, Yuri J., Céleri, Lucas C.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.15690
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author Alvim, Yuri J.
Céleri, Lucas C.
author_facet Alvim, Yuri J.
Céleri, Lucas C.
contents The problem of formulating thermodynamics in a relativistic scenario remains unresolved, although many proposals exist in the literature. The challenge arises due to the intrinsic dynamic structure of spacetime as established by the general theory of relativity. With the discovery of the physical nature of information, which underpins Landauer's principle, we believe that information theory should play a role in understanding this problem. In this work, we contribute to this endeavor by considering a relativistic communication task between two partners, Alice and Bob, in a general Lorentzian spacetime. We then assume that the receiver, Bob, reversibly operates a local heat engine powered by information, and seek to determine the maximum amount of work he can extract from this device. Since Bob cannot extract work for free, by applying both Landauer's principle and the second law of thermodynamics, we establish a bound on the energy Bob must spend to acquire the information in the first place. This bound is a function of the spacetime metric and the properties of the communication channel.
format Preprint
id arxiv_https___arxiv_org_abs_2407_15690
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Landauer principle and the second law in a relativistic communication scenario
Alvim, Yuri J.
Céleri, Lucas C.
Quantum Physics
The problem of formulating thermodynamics in a relativistic scenario remains unresolved, although many proposals exist in the literature. The challenge arises due to the intrinsic dynamic structure of spacetime as established by the general theory of relativity. With the discovery of the physical nature of information, which underpins Landauer's principle, we believe that information theory should play a role in understanding this problem. In this work, we contribute to this endeavor by considering a relativistic communication task between two partners, Alice and Bob, in a general Lorentzian spacetime. We then assume that the receiver, Bob, reversibly operates a local heat engine powered by information, and seek to determine the maximum amount of work he can extract from this device. Since Bob cannot extract work for free, by applying both Landauer's principle and the second law of thermodynamics, we establish a bound on the energy Bob must spend to acquire the information in the first place. This bound is a function of the spacetime metric and the properties of the communication channel.
title Landauer principle and the second law in a relativistic communication scenario
topic Quantum Physics
url https://arxiv.org/abs/2407.15690