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Quantum Phase Recognition via Quantum Kernel Methods

Yusen Wu, Bujiao Wu, Jingbo Wang, Xiao Yuan

2023Quantum37 citationsDOIOpen Access PDF

Abstract

The application of quantum computation to accelerate machine learning algorithms is one of the most promising areas of research in quantum algorithms. In this paper, we explore the power of quantum learning algorithms in solving an important class of Quantum Phase Recognition (QPR) problems, which are crucially important in understanding many-particle quantum systems. We prove that, under widely believed complexity theory assumptions, there exists a wide range of QPR problems that cannot be efficiently solved by classical learning algorithms with classical resources. Whereas using a quantum computer, we prove the efficiency and robustness of quantum kernel methods in solving QPR problems through Linear order parameter Observables. We numerically benchmark our algorithm for a variety of problems, including recognizing symmetry-protected topological phases and symmetry-broken phases. Our results highlight the capability of quantum machine learning in predicting such quantum phase transitions in many-particle systems.

Topics & Concepts

Quantum machine learningQuantum algorithmQuantum computerQuantumComputer scienceQuantum phasesQuantum sortRobustness (evolution)Theoretical computer scienceQuantum networkAlgorithmStatistical physicsQuantum phase transitionPhysicsQuantum mechanicsBiochemistryChemistryGeneQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum many-body systems