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Experimental Verification of Fluctuation Relations with a Quantum Computer

Andrea Solfanelli, Alessandro Santini, Michele Campisi

2021PRX Quantum56 citationsDOIOpen Access PDF

Abstract

Inspired by the idea that quantum computers can be useful in advancing basic science, we use a quantum processor to experimentally validate a number of theoretical results in non-equilibrium quantum thermodynamics, that were not (or were very little) corroborated so far. In order to do so, we first put forward a novel method to implement the so called two-point measurement scheme, which is at the basis of the study of nonequilibrium energetic exchanges in quantum systems. Like previously established methods, our method uses an ancillary system, but at variance with them, it provides direct access to the energy exchange statistics, and is, accordingly more effective, at least when applied to small quantum systems. Using a quantum computer as a remotely programmable experimental platform, we first validate our ancilla-assisted two-point measurement scheme, and then apply it to (i) experimentally verify that fluctuation theorems are robust against projective measurements, a theoretical prediction, which was not validated so far; (ii) experimentally verify the so-called heat-engine fluctuation relation, by implementing a SWAP quantum heat engine; (iii) experimentally verify that the heat-engine fluctuation relation holds for measurement-fueled quantum heat engines, by implementing the design at the basis of the so-called quantum-measurement-cooling concept. For both engines, we report the measured average heat and work exchanged and single out their operation mode. Our experiments constitute an experimental basis for the understanding of the nonequilibrium energetics of quantum computation and for the implementation of energy-management devices on quantum processors.

Topics & Concepts

QuantumQuantum computerStatistical physicsBasis (linear algebra)Quantum algorithmComputer scienceComputationQuantum processWork (physics)Open quantum systemQuantum error correctionQuantum informationQuantum operationEnergy (signal processing)PhysicsNon-equilibrium thermodynamicsSwap (finance)Quantum mechanicsQuantum systemQuantum networkQuantum thermodynamicsQuantum technologyQuantum fluctuationQuantum simulatorAlgorithmQuantum capacityQuantum dynamicsRelation (database)Advanced Thermodynamics and Statistical MechanicsMechanical and Optical ResonatorsAdvanced Physical and Chemical Molecular Interactions
Experimental Verification of Fluctuation Relations with a Quantum Computer | Litcius