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Paper detail

Neural-Network Quantum States for Periodic Systems in Continuous Space

We introduce a family of neural quantum states for the simulation of strongly interacting systems in the presence of spatial periodicity. Our variational state is parameterized in terms of a permutationally-invariant part described by the Deep Sets neural-network architecture. The input coordinates to the Deep Sets are periodically transformed such that they are suitable to directly describe periodic bosonic systems. We show example applications to both one and two-dimensional interacting quantum gases with Gaussian interactions, as well as to $^4$He confined in a one-dimensional geometry. For the one-dimensional systems we find very precise estimations of the ground-state energies and the radial distribution functions of the particles. In two dimensions we obtain good estimations of the ground-state energies, comparable to results obtained from more conventional methods.

preprint2021arXivOpen access
Gabriel PesciaJiequn HanAlessandro LovatoJianfeng LuGiuseppe Carleo
cond-mat.str-elnucl-thquant-ph
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Gabriel PesciaJiequn HanAlessandro LovatoJianfeng LuGiuseppe Carleo

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