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Quantum Speed-Up in Collisional Battery Charging

Stella Seah, Martí Perarnau-Llobet, Géraldine Haack, Nicolas Brunner, Stefan Nimmrichter

2021Physical Review Letters124 citationsDOIOpen Access PDF

Abstract

We present a collision model for the charging of a quantum battery by identical nonequilibrium qubit units. When the units are prepared in a mixture of energy eigenstates, the energy gain in the battery can be described by a classical random walk, where both average energy and variance grow linearly with time. Conversely, when the qubits contain quantum coherence, interference effects buildup in the battery and lead to a faster spreading of the energy distribution, reminiscent of a quantum random walk. This can be exploited for faster and more efficient charging of a battery initialized in the ground state. Specifically, we show that coherent protocols can yield higher charging power than any possible incoherent strategy, demonstrating a quantum speed-up at the level of a single battery. Finally, we characterize the amount of extractable work from the battery through the notion of ergotropy.

Topics & Concepts

Coherence (philosophical gambling strategy)Battery (electricity)QuantumPhysicsQubitCoherence timeWork (physics)Flux qubitQuantum mechanicsTopology (electrical circuits)Statistical physicsPower (physics)Computational physicsElectrical engineeringEngineeringAdvanced Thermodynamics and Statistical MechanicsQuantum Computing Algorithms and ArchitectureQuantum Information and Cryptography
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