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Neural-Network Approach to Dissipative Quantum Many-Body Dynamics

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. 2019 Jun 28;122(25):250502. doi: 10.1103/PhysRevLett.122.250502. Neural-Network Approach to Dissipative Quantum Many-Body Dynamics

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Neural-Network Approach to Dissipative Quantum Many-Body Dynamics

Michael J Hartmann et al. Phys Rev Lett. 2019.

. 2019 Jun 28;122(25):250502. doi: 10.1103/PhysRevLett.122.250502. Affiliations

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Abstract

In experimentally realistic situations, quantum systems are never perfectly isolated and the coupling to their environment needs to be taken into account. Often, the effect of the environment can be well approximated by a Markovian master equation. However, solving this master equation for quantum many-body systems becomes exceedingly hard due to the high dimension of the Hilbert space. Here we present an approach to the effective simulation of the dynamics of open quantum many-body systems based on machine-learning techniques. We represent the mixed many-body quantum states with neural networks in the form of restricted Boltzmann machines and derive a variational Monte Carlo algorithm for their time evolution and stationary states. We document the accuracy of the approach with numerical examples for a dissipative spin lattice system.

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