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Bootstrap Embedding on a Quantum Computer

Yuan Liu, Oinam Romesh Meitei, Zachary E. Chin, Arkopal Dutt, Max Tao, Isaac L. Chuang, Troy Van Voorhis

2023Journal of Chemical Theory and Computation18 citationsDOI

Abstract

We extend molecular bootstrap embedding to make it appropriate for implementation on a quantum computer. This enables solution of the electronic structure problem of a large molecule as an optimization problem for a composite Lagrangian governing fragments of the total system, in such a way that fragment solutions can harness the capabilities of quantum computers. By employing state-of-art quantum subroutines including the quantum SWAP test and quantum amplitude amplification, we show how a quadratic speedup can be obtained over the classical algorithm, in principle. Utilization of quantum computation also allows the algorithm to match─at little additional computational cost─full density matrices at fragment boundaries, instead of being limited to 1-RDMs. Current quantum computers are small, but quantum bootstrap embedding provides a potentially generalizable strategy for harnessing such small machines through quantum fragment matching.

Topics & Concepts

Quantum computerComputer scienceEmbeddingQuantum algorithmSpeedupQuantumTheoretical computer scienceAlgorithmComputational scienceQuantum mechanicsPhysicsParallel computingArtificial intelligenceQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum and electron transport phenomena
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