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Enhancing coherent energy transfer between quantum devices via a mediator

Alba Crescente, Dario Ferraro, Matteo Carrega, Maura Sassetti

2022Physical Review Research39 citationsDOIOpen Access PDF

Abstract

We investigate the coherent energy transfer between two quantum systems mediated by a quantum bus. In particular, we consider the energy-transfer process between two qubits and how it can be influenced by using a third qubit or photons in a resonant cavity as mediators. Inspecting different figures of merit and considering both on- and off-resonance configurations, we characterize the energy-transfer performances. We show that while the qubit-mediated transfer shows no advantages with respect to a direct-coupling case, the cavity-mediated one is progressively more and more efficient as function of the number of photons stored in the cavity that acts as a quantum bus. The speeding-up of the energy-transfer time, due to a quantum mediator, paves the way for new architecture designs in quantum technologies and energy-based quantum logics.

Topics & Concepts

Energy transferQuantumMediatorTransfer (computing)Energy (signal processing)Materials scienceOptoelectronicsPhysicsComputer scienceQuantum mechanicsEngineering physicsMedicineParallel computingInternal medicineQuantum Information and CryptographyQuantum and electron transport phenomenaQuantum Computing Algorithms and Architecture
Enhancing coherent energy transfer between quantum devices via a mediator | Litcius