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Toward simulating Superstring/M-theory on a quantum computer

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arxiv 2011.06573 v2 pith:OZBMBRXY submitted 2020-11-12 hep-th hep-latquant-ph

Toward simulating Superstring/M-theory on a quantum computer

classification hep-th hep-latquant-ph
keywords quantumm-theorymatrixsuperstringcomputermodelsimulatingstate
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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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.

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