Litcius/Paper detail

Energy storage and coherence in closed and open quantum batteries

Francesco Caravelli, Bin Yan, Luis Pedro García-Pintos, Alioscia Hamma

2021Quantum51 citationsDOIOpen Access PDF

Abstract

We study the role of coherence in closed and open quantum batteries. We obtain upper bounds to the work performed or energy exchanged by both closed and open quantum batteries in terms of coherence. Specifically, we show that the energy storage can be bounded by the Hilbert-Schmidt coherence of the density matrix in the spectral basis of the unitary operator that encodes the evolution of the battery. We also show that an analogous bound can be obtained in terms of the battery's Hamiltonian coherence in the basis of the unitary operator by evaluating their commutator. We apply these bounds to a 4-state quantum system and the anisotropic XY Ising model in the closed system case, and the Spin-Boson model in the open case.

Topics & Concepts

Coherence (philosophical gambling strategy)Hamiltonian (control theory)QuantumUnitary operatorQuantum mechanicsOperator (biology)Quantum decoherenceUnitary stateDensity matrixPhysicsHilbert spaceMathematicsChemistryMathematical optimizationBiochemistryLawGenePolitical scienceRepressorTranscription factorAdvanced Thermodynamics and Statistical MechanicsQuantum many-body systemsQuantum Information and Cryptography