yuechm's repositories
Wannier_Hamiltonian_symmetrization
Restore the symmetry of Wannier Hamiltonian generated by Wannier90
arxiv_download
To search and download arxiv papers. If published, then it downloads the published one (if accessible).
w2dynamics
A continuous-time hybridization-expansion Monte Carlo code for calculating n-particle Green's functions of the Anderson impurity model and within dynamical mean-field theory.
ALPSCore
Core ALPS libraries
amset
Electronic transport properties from first-principles calculations
block2-preview
Efficient parallel quantum chemistry DMRG in MPO formalism
DMFTwDFT
DMFTwDFT: An open-source code combining Dynamical Mean Field Theory with various Density Functional Theory packages
EDlattice
Exact Diagonalization of interacting electrons on a lattice. beta version.
dvmc-impurity-solver
Dynamical Variational Monte Carlo (dVMC) method implemented and published in arxiv:1912.09960
How-to-Code-Enumerations-in-Fortran
THIS REPOSITORY SHOWS A SIMPLE WAY TO CODE ENUMERATED TYPES IN FORTRAN
libcommute
A quantum operator algebra domain-specific language and exact diagonalization toolkit for C++11/14/17
maxEntLambda
max entropy method in python, covariance matrix is diagonalized and the Green function and kernel matrix are rotated into the eigen-space.
Nevanlinna.jl
Nevanlinna analytic continuation
nrgljubljana
NRG Ljubljana (revised version, using cmake build system)
pycommute
Python bindings for libcommute
pynanotube
simple script to generate nanotube from vasp/POSCAR
quest-qmc
Automatically exported from code.google.com/p/quest-qmc
RSMI-NE
A Python package for efficient optimisation of real-space renormalization group transformations using Tensorflow.
scipy-2016-sklearn
Scikit-learn tutorial at SciPy2016
Tetrahedra_Integration
A function that performs the tetrahedron method of integration in the Brillouin zone.
ucasthesis
[最新样式] **科学院大学学位论文 LaTeX 模板 LaTeX Thesis Template for the University of Chinese Academy of Sciences
wannier_tools
WannierTools: An open-source software package for novel topological materials. Full documentation: