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Toward simulating superstring/M-theory on a quantum computer

Hrant Gharibyan, Masanori Hanada, Masazumi Honda, Junyu Liu

2021Journal of High Energy Physics26 citationsDOIOpen Access PDF

Abstract

A bstract We present a novel framework for simulating matrix models on a quantum computer. Supersymmetric matrix models have natural applications to superstring/M-theory and gravitational physics, in an appropriate limit of parameters. Furthermore, for certain states in the Berenstein-Maldacena-Nastase (BMN) matrix model, several supersymmetric quantum field theories dual to superstring/M-theory can be realized on a quantum device. Our prescription consists of four steps: regularization of the Hilbert space, adiabatic state preparation, simulation of real-time dynamics, and measurements. Regularization is performed for the BMN matrix model with the introduction of energy cut-off via the truncation in the Fock space. We use the Wan-Kim algorithm for fast digital adiabatic state preparation to prepare the low-energy eigenstates of this model as well as thermofield double state. Then, we provide an explicit construction for simulating real-time dynamics utilizing techniques of block-encoding, qubitization, and quantum signal processing. Lastly, we present a set of measurements and experiments that can be carried out on a quantum computer to further our understanding of superstring/M-theory beyond analytic results.

Topics & Concepts

PhysicsQuantum mechanicsAdiabatic processQuantum computerQuantum simulatorEigenvalues and eigenvectorsRegularization (linguistics)QuantumQuantum algorithmOpen quantum systemQuantum stateTheoretical physicsQuantum processQuantum error correctionQuantum informationHilbert spaceStatistical physicsQuantum field theoryMatrix (chemical analysis)Quantum operationJaynes–Cummings modelTruncation (statistics)Fock spaceDensity matrixQuantum opticsGround stateQuadratic equationBlock matrixQuantum gateClassical mechanicsMathematical physicsQuantum gravityQuantum Computing Algorithms and ArchitectureQuantum many-body systemsSpectroscopy and Quantum Chemical Studies
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