Many-body quantum thermal machines

TL;DR

This paper reviews recent advances in many-body quantum thermal machines, highlighting how many-body effects influence their operation and potential applications in quantum batteries and probes.

Contribution

It provides a concise overview of recent developments in many-body quantum thermal machines and their role in quantum technologies.

Findings

Many-body effects can enhance quantum thermal machine performance.

Recent studies reveal new phenomena in quantum batteries and probes.

Challenges remain in understanding complex many-body interactions.

Abstract

Thermodynamics of quantum systems and quantum thermal machines are rapidly developing fields, which have already delivered several promising results, as well as raised many intriguing questions. Many-body quantum machines present new opportunities stemming from many-body effects. At the same time, they pose new challenges related to many-body physics. In this short review we discuss some of the recent developments on technologies based on many-body quantum systems. We mainly focus on many-body effects in quantum thermal machines. We also briefly address the role played by many-body systems in the development of quantum batteries and quantum probes.