Quantum Field Thermal Machines
Gluza M, Sabino J, Ng NHY, Vitagliano G, Pezzutto M, Omar Y, Mazets I, Huber M, Schmiedmayer J, Eisert J (2021)
Publication Type: Journal article
Publication year: 2021
Journal
Book Volume: 2
Article Number: 030310
Journal Issue: 3
DOI: 10.1103/PRXQuantum.2.030310
Abstract
Recent years have enjoyed an overwhelming interest in quantum thermodynamics, a field of research aimed at understanding thermodynamic tasks performed in the quantum regime. Further progress, however, seems to be obstructed by the lack of experimental implementations of thermal machines in which quantum effects play a decisive role. In this work, we introduce a blueprint of quantum field machines, which - once experimentally realized - would fill this gap. Even though the concept of the QFM presented here is very general and can be implemented in any many-body quantum system that can be described by a quantum field theory. We provide here a detailed proposal of how to realize a quantum machine in one-dimensional ultracold atomic gases, which consists of a set of modular operations giving rise to a piston. These can then be coupled sequentially to thermal baths, with the innovation that a quantum field takes up the role of the working fluid. In particular, we propose models for compression on the system to use it as a piston, and coupling to a bath that gives rise to a valve controlling heat flow. These models are derived within Bogoliubov theory, which allows us to study the operational primitives numerically in an efficient way. By composing the numerically modeled operational primitives we design complete quantum thermodynamic cycles that are shown to enable cooling and hence giving rise to a quantum field refrigerator. The active cooling achieved in this way can operate in regimes where existing cooling methods become ineffective. We describe the consequences of operating the machine at the quantum level and give an outlook of how this work serves as a road map to explore open questions in quantum information, quantum thermodynamic, and the study of non-Markovian quantum dynamics.
Involved external institutions
Freie Universität Berlin
Germany (DE)
Technische Universität Wien / Vienna University of Technology
Austria (AT)
Österreichische Akademie der Wissenschaften
Austria (AT)
Instituto de Telecomunicações
Portugal (PT)
University of Lisbon / Universidade de Lisboa (ULisboa)
Portugal (PT)
Germany (DE)
Technische Universität Wien / Vienna University of Technology
Austria (AT)
Österreichische Akademie der Wissenschaften
Austria (AT)
Instituto de Telecomunicações
Portugal (PT)
University of Lisbon / Universidade de Lisboa (ULisboa)
Portugal (PT)
How to cite
APA:
Gluza, M., Sabino, J., Ng, N.H.Y., Vitagliano, G., Pezzutto, M., Omar, Y.,... Eisert, J. (2021). Quantum Field Thermal Machines. PRX Quantum, 2(3). https://doi.org/10.1103/PRXQuantum.2.030310
MLA:
Gluza, Marek, et al. "Quantum Field Thermal Machines." PRX Quantum 2.3 (2021).
BibTeX: Download