Litcius/Paper detail

Characterization of a Two-Photon Quantum Battery: Initial Conditions, Stability and Work Extraction

Anna Delmonte, Alba Crescente, Matteo Carrega, Dario Ferraro, Maura Sassetti

2021Entropy63 citationsDOIOpen Access PDF

Abstract

We consider a quantum battery that is based on a two-level system coupled with a cavity radiation by means of a two-photon interaction. Various figures of merit, such as stored energy, average charging power, energy fluctuations, and extractable work are investigated, considering, as possible initial conditions for the cavity, a Fock state, a coherent state, and a squeezed state. We show that the first state leads to better performances for the battery. However, a coherent state with the same average number of photons, even if it is affected by stronger fluctuations in the stored energy, results in quite interesting performance, in particular since it allows for almost completely extracting the stored energy as usable work at short enough times.

Topics & Concepts

USableWork (physics)Fock spaceQuantumCharacterization (materials science)Stability (learning theory)Statistical physicsEnergy (signal processing)State (computer science)Coherent statesSqueezed coherent stateExtraction (chemistry)PhysicsQuantum stateRadiationQuantum mechanicsQuantum opticsQuantum fluctuationFock stateBattery (electricity)MathematicsQuantum systemMode (computer interface)Polymethyl methacrylateDegradation (telecommunications)Advanced Thermodynamics and Statistical MechanicsQuantum Information and CryptographyMechanical and Optical Resonators