Many-body enhancement of energy storage in a waveguide-QED quantum battery

Salvatore Tirone, Gian Marcello Andolina, Giuseppe Calajó, Vittorio Giovannetti, Davide Rossini

Type: Preprint

Publication Date: 2024-11-19

Citations: 0

Abstract

Quantum batteries have demonstrated remarkable charging properties, showing that a quantum advantage is possible in the realm of quantum thermodynamics. However, finding an effective strategy to store energy for long periods remains crucial in these systems. Here, we investigate different configurations of a waveguide-QED system acting as a quantum battery and show that, in this context, collective effects can slow down the self-discharging time of the battery, thus improving the storage time. Specifically, when the artificial atoms of the array are arranged randomly, the energy and ergotropy of the optical system are shown to decay at a subexponential rate over long periods, in contrast to the energy decay of a single atom in a waveguide. In the case of atoms arranged in an ordered lattice, collective effects slow down dissipative discharging only for a specific lattice spacing. Thus, in both configurations, collective effects can be used to boost the energy-protection properties of optical systems.

Locations

arXiv (Cornell University) - View - PDF

Similar Works

Action	Title	Year	Authors
+ PDF Chat	Remote Charging and Degradation Suppression for the Quantum Battery	2024	Wan-Lu Song Haibin Liu Bin Zhou Wanli Yang Jun‐Hong An
+	Remote-charging and anti-aging quantum battery	2023	Wan-Lu Song Haibin Liu Bin Zhou Wanli Yang Jun‐Hong An
+ PDF Chat	Enhancing self-discharging process with disordered quantum batteries	2021	Mohammad B. Arjmandi Hamidreza Mohammadi Alan C. Santos
+ PDF Chat	Enhancing self-discharging process with disordered quantum batteries	2021	Mohammad B. Arjmandi Hamidreza Mohammadi Alan C. Santos
+	Enhanced energy transfer in a Dicke quantum battery	2018	Xiang Zhang M. Blaauboer
+	Two-photon charging of a quantum battery with a Gaussian pulse envelope	2024	C. A. Downing M. Shoufie Ukhtary
+	Nonreciprocal Quantum Batteries	2024	B. Ahmadi Paweł Mazurek Paweł Horodecki Shabir Barzanjeh
+ PDF Chat	Super-Optimal Charging of Quantum Batteries via Reservoir Engineering	2024	B. Ahmadi Paweł Mazurek Shabir Barzanjeh Paweł Horodecki
+	A coherent quantum engine based on bath and battery engineering	2019	Juliette Monsel Marco Fellous-Asiani Benjamin Huard Alexia Auffèves
+ PDF Chat	Stable SAP-like collective charging of ultracold atoms quantum batteries	2024	Abel Rojo-Francàs Felipe Isaule Alan C. Santos Bruno Juliá-Díaz N. T. Zinner
+ PDF Chat	Floquet engineering to reactivate a dissipative quantum battery	2020	Si‐Yuan Bai Jun‐Hong An
+ PDF Chat	Charging a Quantum Battery Mediated by Parity-Deformed Fields	2024	B. Mojaveri R. Jafarzadeh Bahrbeig M. A. Fasihi
+ PDF Chat	Environment-mediated charging process of quantum batteries	2020	F. T. Tabesh F. H. Kamin S. Salimi
+ PDF Chat	Ultrafast charging in a two-photon Dicke quantum battery	2020	Alba Crescente Matteo Carrega Maura Sassetti Dario Ferraro
+ PDF Chat	High-Power Collective Charging of a Solid-State Quantum Battery	2018	Dario Ferraro Michele Campisi Gian Marcello Andolina Vittorio Pellegrini Marco Polini
+ PDF Chat	Collective enhancement in dissipative quantum batteries	2022	Javier Carrasco J. R. Maze Carla Hermann-Avigliano Felipe Barra
+ PDF Chat	Hyperbolic enhancement of a quantum battery	2024	C. A. Downing M. Shoufie Ukhtary
+ PDF Chat	Charging a quantum battery mediated by parity-deformed fields	2024	B. Mojaveri R. Jafarzadeh Bahrbeig M. A. Fasihi
+ PDF Chat	Comment on "High-Power Collective Charging of a Solid-State Quantum Battery"	2024	Haowei Xu L. Ju
+	Non-Markovian effects on charging and self-discharging process of quantum batteries	2020	F. H. Kamin F. T. Tabesh S. Salimi F. Kheirandish Alan C. Santos

Works That Cite This (0)

Action	Title	Year	Authors

Works Cited by This (0)

Action	Title	Year	Authors