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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Updated
Jun 30, 2015 - Fortran
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.
Fortran program that solves the three-dimensional Gross - Pitaevskii equation for a system of N bosons confined in a harmonic trap.
Machine Learning homework project at EPFL
Classification of Higgs boson on kaggle dataset
Ground state of the Gutzwiller wavefunction for one- and two-component Bose-Hubbard model
ROS opencv camera driver, with support for the FLIR Boson thermal camera
(Bo)son (S)ampling (S)imulator based on the most current works in the field! Yay!
Bosons/Fermions Superfluid problem with morden tools.
The program performing exact diagonalization for fermion and boson many body localized hamiltonians.
This is a Path Integral Ground State Monte Carlo code written in Fortran. It is intended to the description of 4He in three dimensions but it can be easily extended to any other homogeneous or trapped system in any dimensions
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.
PyTorch solver for the Gross–Pitaevskii (non-linear Schrödinger) equation with arbitrary self-consistent and time-dependent potentials.
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