Ecosyste.ms: Awesome
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Projects in Awesome Lists by cometscome
A curated list of projects in awesome lists by cometscome .
https://github.com/cometscome/tightbinding.jl
This can construct the tight-binding model and calculate energies
band-structure condensed-matter-physics graphene julia-language julialang
Last synced: 12 Oct 2024
https://github.com/cometscome/FluxKAN.jl
An easy to use Flux implementation of the Kolmogorov Arnold Network. This is a Julia version of TorchKAN.
Last synced: 05 Dec 2024
https://github.com/cometscome/fluxkan.jl
An easy to use Flux implementation of the Kolmogorov Arnold Network. This is a Julia version of TorchKAN.
Last synced: 20 Nov 2024
https://github.com/cometscome/dmft_withjulia
DMFT with CTQMC. The Dynamical Mean Field Theory (DMFT) with the continuous-time auxiliary-field Quantum Monte Carlo method with Julia 1.0.0.
Last synced: 12 Oct 2024
https://github.com/cometscome/tightbinding
In Japanese. Juliaで学ぶタイトバインディング模型とトポロジカル物質
Last synced: 12 Oct 2024
https://github.com/cometscome/rscg
This solves the Bogoliubov-de Gennes equations and gap equations in the s-wave superconductor with the use of the Reduced-Shifted Conjugate-Gradient Method method. See, Y. Nagai, Y. Shinohara, Y. Futamura, and T. Sakurai,[arXiv:1607.03992v2 or DOI:10.7566/JPSJ.86.014708]. http://dx.doi.org/10.7566/JPSJ.86.014708
bogoliubov-de-gennnes rscg superconductivity
Last synced: 20 Nov 2024
https://github.com/cometscome/chebyshevpolynomialbdg
This solves the Bogoliubov-de Gennes equations and gap equations in the s-wave superconductor with the use of the Chebyshev polynomial method. See, Y. Nagai, Y. Ota and M. Machida [arXiv:1105.4939 or DOI:10.1143/JPSJ.81.024710]
Last synced: 12 Oct 2024
https://github.com/cometscome/exactdiagonalization-in-the-hubbard-model
This calculates the minimum eigenvalue in the Hubbard model with the use of the exact diagonalization method.
exact-diagonalization hubbard-model
Last synced: 20 Nov 2024
https://github.com/cometscome/vortexlattice
Chebyshev polynomial method for the Bogoliubov-de Gennes equations in the s-wave superconductor with a vortex lattice with Julia 1.0.0. See, Y. Nagai, Y. Ota and M. Machida, J. Phys. Soc. Jpn. 81, 024710 (2012).
Last synced: 12 Oct 2024
https://github.com/cometscome/sswithjulia
Sakurai-Sugiura method to obtain the eigenvalues located in a given domain with Julia 1.0.0. See, T. Sakurai and H. Sugiura: J. Comput. Appl. Math. 159 (2003) 119. and "Numerical Construction of a Low-Energy Effective Hamiltonian in a Self-Consistent Bogoliubov–de Gennes Approach of Superconductivity", Yuki Nagai et al., J. Phys. Soc. Jpn. 82, 094701 (2013) or arXiv:1303.3683
Last synced: 20 Nov 2024
https://github.com/cometscome/ctaux_julia
Continuous-time auxiliary-field quantum Monte Carlo method. See, E. Gull et al., EPL 82, 57003 (2008)
Last synced: 20 Nov 2024
https://github.com/cometscome/tdgl.jl
Time-dependent Ginzburg-Landau simulations
Last synced: 20 Nov 2024
https://github.com/cometscome/exactdiagonalization_with_julia
Exact Diagonalization in the Hubbard model with Julia 1.0.3. We use the LOBPCG method to diagonalize the Hamiltonian. The particle number is fixed.
Last synced: 20 Nov 2024
https://github.com/cometscome/rscg_julia
This solves the Bogoliubov-de Gennes equations and gap equations in the s-wave superconductor with the use of the Reduced-Shifted Conjugate-Gradient Method method. See, Y. Nagai, Y. Shinohara, Y. Futamura, and T. Sakurai,[arXiv:1607.03992v2 or DOI:10.7566/JPSJ.86.014708]. http://dx.doi.org/10.7566/JPSJ.86.014708
Last synced: 20 Nov 2024
https://github.com/cometscome/bdg_cpp
This solves the Bogoliubov-de Gennes equations and gap equations in the s-wave superconductor with the use of the Reduced-Shifted Conjugate-Gradient Method method. See, Y. Nagai, Y. Shinohara, Y. Futamura, and T. Sakurai,[arXiv:1607.03992v2 or DOI:10.7566/JPSJ.86.014708]. http://dx.doi.org/10.7566/JPSJ.86.014708
Last synced: 20 Nov 2024
https://github.com/cometscome/mpidistributedarrays.jl
DistributedArrays with MPI
Last synced: 20 Nov 2024
https://github.com/cometscome/rscg_cpp
The Reduced-Shifted Conjugate-Gradient Method method to calculate the element of the Green's function matrix. See, Y. Nagai, Y. Shinohara, Y. Futamura, and T. Sakurai,[arXiv:1607.03992v2 or DOI:10.7566/JPSJ.86.014708]. http://dx.doi.org/10.7566/JPSJ.86.014708
Last synced: 20 Nov 2024
https://github.com/cometscome/shiftedcg
Shifted CG method for solving linear equations with Julia 0.6.1. See, Y. Nagai, Y. Shinohara, Y. Futamura, and T. Sakurai,[arXiv:1607.03992v2 or DOI:10.7566/JPSJ.86.014708]. http://dx.doi.org/10.7566/JPSJ.86.014708
Last synced: 20 Nov 2024
https://github.com/cometscome/smac
Numerical analytical continuation with the use of the sparse modeling technique. This code was written by Julia 0.6.0. Please see, J. Otsuki et al., Phys. Rev. E 95, 061302(R) (2017).
Last synced: 20 Nov 2024
https://github.com/cometscome/zpares_mirror
This is a copy of the file that downloaded from https://zpares.cs.tsukuba.ac.jp
Last synced: 20 Nov 2024
https://github.com/cometscome/algremez.jl
AlgRemez.jl is a Julia wrapper for AlgRemez written in c++
Last synced: 20 Nov 2024
https://github.com/cometscome/lkvector_sample
This is sample Julia code set with LkBdG method proposed by the paper https://journals.jps.jp/doi/10.7566/JPSJ.89.074703
Last synced: 20 Nov 2024
https://github.com/cometscome/rscg.jl
The Reduced-Shifted Conjugate-Gradient Method method to calculate the element of the Green's function matrix. See, Y. Nagai, Y. Shinohara, Y. Futamura, and T. Sakurai,[arXiv:1607.03992v2 or DOI:10.7566/JPSJ.86.014708]. http://dx.doi.org/10.7566/JPSJ.86.014708
Last synced: 20 Nov 2024
https://github.com/cometscome/vortexboundstates
We calculate vortex bound states with the use of the Kramer Pesch approximation in Julia 1.2
Last synced: 20 Nov 2024