Litcius/Paper detail

Variational quantum algorithm for nonequilibrium steady states

Nobuyuki Yoshioka, Yuya O. Nakagawa, Kosuke Mitarai, Keisuke Fujii

2020Physical Review Research47 citationsDOIOpen Access PDF

Abstract

We propose a quantum-classical hybrid algorithm to simulate the nonequilibrium steady state of an open quantum many-body system, named the dissipative-system variational quantum eigensolver (dVQE). To employ the variational optimization technique for a unitary quantum circuit, we map a mixed state into a pure state with a doubled number of qubits and design the unitary quantum circuit to fulfill the requirements for a density matrix. This allows us to define a cost function that consists of the time evolution generator of the quantum master equation. Evaluation of physical observables is, in turn, carried out by a quantum circuit with the original number of qubits. We demonstrate our dVQE scheme by both numerical simulation on a classical computer and actual quantum simulation that makes use of the device provided in Rigetti quantum cloud service.

Topics & Concepts

Quantum phase estimation algorithmQuantum algorithmOpen quantum systemQuantum circuitQuantum computerQuantum operationQuantumObservablePhysicsQuantum processUnitary stateOne-way quantum computerQubitQuantum networkQuantum error correctionQuantum simulatorQuantum stateNon-equilibrium thermodynamicsQuantum mechanicsStatistical physicsQuantum dissipationAlgorithmQuantum systemState (computer science)Function (biology)Quantum dynamicsMathematicsVariational methodTopology (electrical circuits)Quantum technologyGenerator (circuit theory)Computer scienceQuantum discordQuantum informationQuantum Computing Algorithms and ArchitectureQuantum many-body systemsQuantum Information and Cryptography