Adiabatic quantum computation | RDL Research Database

Abstract

Adiabatic quantum computing (AQC) started as an approach to solving optimization problems, and has evolved into an important universal alternative to the standard circuit model of quantum computing, with deep connections to both classical and quantum complexity theory and condensed matter physics. In this review we give an account of most of the major theoretical developments in the field, while focusing on the closed-system setting. The review is organized around a series of topics that are essential to an understanding of the underlying principles of AQC, its algorithmic accomplishments and limitations, and its scope in the more general setting of computational complexity theory. We present several variants of the adiabatic theorem, the cornerstone of AQC, and we give examples of explicit AQC algorithms that exhibit a quantum speedup. We give an overview of several proofs of the universality of AQC and related Hamiltonian quantum complexity theory. We finally devote considerable space to Stoquastic AQC, the setting of most AQC work to date, where we discuss obstructions to success and their possible resolutions.

Keywords

Adiabatic quantum computationPhysicsAdiabatic processQuantum computerQuantum algorithmQuantum operationOpen quantum systemQuantum processQuantumQuantum mechanicsComputationQuantum informationStatistical physicsTheoretical physicsQuantum dynamicsAlgorithmComputer science

Affiliated Institutions

University of Southern California US

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Publication Info

Year: 2018
Type: article
Volume: 90
Issue: 1
Citations: 1385
Access: Closed

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APA Style

                            
                                    Tameem Albash, 
                                
                                    Daniel A. Lidar
                                
                            (2018). 
                            Adiabatic quantum computation. 
                            Reviews of Modern Physics
                            , 90
                            (1)
                            .
                            https://doi.org/10.1103/revmodphys.90.015002

Identifiers

DOI: 10.1103/revmodphys.90.015002