PyTorch solver for the Gross–Pitaevskii (non-linear Schrödinger) equation with arbitrary self-consistent and time-dependent potentials.
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Updated
Jul 23, 2024 - Python
PyTorch solver for the Gross–Pitaevskii (non-linear Schrödinger) equation with arbitrary self-consistent and time-dependent potentials.
This code generates the generator matrices for special unitary groups of a given degree. It can also use the Higgs mechanism to break symmetry to return boson mass terms.
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Fortran program that solves the three-dimensional Gross - Pitaevskii equation for a system of N bosons confined in a harmonic trap.
This is a Diffusion Monte Carlo code written in Fortran 90. The code performs a DMC simulation of a homogeneous system in an arbitrary dimensionality.
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