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Spin-projection for quantum computation: A low-depth approach to strong correlation

Takashi Tsuchimochi, Yuto Mori, Seiichiro Ten‐no

2020Physical Review Research35 citationsDOIOpen Access PDF

Abstract

Although spin is a core property in fermionic systems, its symmetry can be easily violated in a variational simulation, especially when strong correlation plays a vital role therein. In this study, we will demonstrate that the broken spin symmetry can be restored exactly in a quantum computer, with little overhead in circuits, while delivering additional strong correlation energy with the desired spin quantum number. The proposed scheme permits drastic reduction of a potentially large number of measurements required to ensure spin symmetry by employing a superposition of only a few rotated quantum states. Our implementation is universal, simple, and, most importantly, straightforwardly applicable to any Ansatz proposed to date.

Topics & Concepts

AnsatzSuperposition principleSpin (aerodynamics)Quantum computerSymmetry (geometry)PhysicsQuantumQuantum superpositionComputationQuantum mechanicsOverhead (engineering)Projection (relational algebra)Quantum correlationStatistical physicsTopology (electrical circuits)MathematicsComputer scienceOpen quantum systemQuantum discordAlgorithmGeometryThermodynamicsCombinatoricsOperating systemQuantum Computing Algorithms and ArchitectureQuantum and electron transport phenomenaQuantum Information and Cryptography
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