Official repository of the Wannier90 code
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Sep 30, 2024 - Roff
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condensed-matter-physics
Here are 144 public repositories matching this topic...
Julia package for the construction of quantum lattice systems.
symbolic-computation
hamiltonian
condensed-matter-physics
quantum-many-body
quantum-lattice-systems
second-quantized-operator
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Nov 1, 2024 - Julia
This can construct the tight-binding model and calculate energies
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Dec 14, 2023 - Jupyter Notebook
Machine Learning in Condensed Matter Physics 2019 course repository
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Oct 1, 2019 - Mathematica
Tight-binding package written in Julia
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Nov 19, 2023 - Julia
A code for generating irreducible site-occupancy configurations
vasp
combinatorics
crystal-structure
supercell
materials-science
substitution
vacancy
condensed-matter-physics
first-principles-calculations
disordered-doping
space-group-operations
multicomponent-alloys
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Dec 19, 2023 - Fortran
Mirror of PyARPES (gitlab/lanzara-group/python-arpes) the open source ARPES analysis framework
python
physics
data-analysis
electrons
pes
spectroscopy
xps
condensed-matter-physics
arpes
photoemission
angle-resolved-photoemission
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Updated
Jul 25, 2024 - Python
A package for tight-binding model of magnetic and non-magnetic materials
physics
symmetry
group-theory
wannier90
condensed-matter-physics
magnetic-materials
tight-binding-model
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Updated
Jun 24, 2024 - Mathematica
Ab initio full cell dynamical mean-field theory (DMFT) and GW+DMFT for solids
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Updated
Jun 13, 2023 - Python
Distributed data processing routines for multidimensional photoemission spectroscopy (MPES)
visualization
python
physics
fitting
distortion-correction
dask
materials-science
pes
spectroscopy
lineshape
mpes
condensed-matter-physics
distributed-processing
arpes
photoemission
instrument-calibration
electron-spectroscopy
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Jan 23, 2023 - Python
A library of density matrix embedding theory (DMET).
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Updated
Aug 19, 2024 - Python
A method which combines quantum many-body calculation and unbiased optimizers to automatically learn effective Hamiltonians for quantum magnets
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Dec 15, 2021 - Jupyter Notebook
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Updated
Oct 22, 2024 - Python
Pseudofermion functional renormalization group solver for (frustrated) quantum magnets in two and three spatial dimensions.
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Updated
Sep 13, 2022 - C++
A Julia package for calculating topological numbers
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Updated
Oct 15, 2024 - Julia
The PyFlow package is a Python implementation of the flow equation method for approximately diagonalising large many-body quantum systems, and simulating their non-equilibrium dynamics.
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Aug 27, 2023 - Jupyter Notebook
C++ library for Exact Diagonalization of quantum many-body systems
computational-physics
numerical-simulations
exact-diagonalization
quantum-physics
condensed-matter-physics
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Updated
Sep 10, 2024 - C++
On-the-fly computation of IR basis functions
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Oct 22, 2024 - Julia
Korringa-Kohn-Rostoker (multiple scattering theory/Green's function method) band structure calculation
physics
quantum-mechanics
computational-physics
vtk
wxwidgets-applications
condensed-matter
schrodinger-equation
electronic-structure
electronic-structure-calculations
vtk-applications
kkr
numerov
wx-widgets
condensed-matter-physics
korringa-kohn-rostoker
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Feb 7, 2024 - C++
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