Ecosyste.ms: Repos
An open API service providing repository metadata for many open source software ecosystems.
GitHub topics: multiple-scattering
JuDFTteam/aiida-kkr
AiiDA plugin of the high-performance density functional theory code JuKKR (www.judft.de) for high-throughput electronic structure calculations.
Language: Python - Size: 295 MB - Last synced: 4 days ago - Pushed: 4 days ago - Stars: 14 - Forks: 10
complexphoton/MESTI.jl
3D multi-source electromagnetic simulations in frequency domain, implementing the augmented partial factorization (APF) and other methods.
Language: Julia - Size: 1.77 MB - Last synced: 1 day ago - Pushed: 2 days ago - Stars: 24 - Forks: 2
complexphoton/MESTI.m
2D multi-source electromagnetic simulations in frequency domain, implementing the augmented partial factorization (APF) and other methods.
Language: MATLAB - Size: 13.6 MB - Last synced: 24 days ago - Pushed: 24 days ago - Stars: 33 - Forks: 6
JuliaWaveScattering/EffectiveWaves.jl
A package to calculate ensemble averaged waves in heterogeneous materials. The focus is on wave propagation, scattering, and reflection, from particulate and porous materials.
Language: Julia - Size: 9.48 MB - Last synced: 3 months ago - Pushed: 3 months ago - Stars: 17 - Forks: 6
JuDFTteam/JuKKR
Full-potential Korringa-Kohn-Rostoker Green function code JuKKR: All-electron DFT (repo mirror)
Language: Fortran - Size: 224 MB - Last synced: 30 days ago - Pushed: about 1 month ago - Stars: 6 - Forks: 2
JuliaWaveScattering/MultipleScattering.jl
A Julia library for simulating, processing, and plotting multiple scattering of waves.
Language: Julia - Size: 31.8 MB - Last synced: about 1 month ago - Pushed: 2 months ago - Stars: 43 - Forks: 11
akohta/bem3_emf_b2
This is the three-dimensional electromagnetic field analysis program for arbitrary objects irradiated by arbitrary beams. This is the extension of "bem3_emf_b1" using iterative solution. This program can analyze multiple scattering between objects with less memory than "bem3_emf_b1".
Language: C - Size: 83.5 MB - Last synced: 4 months ago - Pushed: over 2 years ago - Stars: 1 - Forks: 0
sunyumark/ScaDec-deep-learning-diffractive-tomography
Efficient and accurate inversion of multiple scattering with deep learning
Language: Python - Size: 3.5 MB - Last synced: 8 months ago - Pushed: almost 4 years ago - Stars: 21 - Forks: 10
bearworks/Unity-Atmosphere-with-multiple-Scattering
Atmospheric Scattering (With Multiple Scattering) for Unity
Language: C# - Size: 6.69 MB - Last synced: about 1 year ago - Pushed: over 1 year ago - Stars: 31 - Forks: 7
akohta/emf_mie_mmls
This is the electromagnetic field analysis program for multi-layered spherical particles. The radiation force acting on the sphere can be analyzed. This is based on Mie scattering theory, the own developed method is used.
Language: C - Size: 36.8 MB - Last synced: about 1 year ago - Pushed: over 2 years ago - Stars: 2 - Forks: 0
akohta/aw_msp_ivf
This is the analysis program of sound wave scattering by a spherical objects in a inviscid fluid. This program can analyze multiple scattering between spherical objects, and can analyze radiation force acting on each spherical object.
Language: C - Size: 22.1 MB - Last synced: about 1 year ago - Pushed: over 2 years ago - Stars: 1 - Forks: 0
arturgower/MultipleScattering-Mathematica
A Mathematica package to calculate exact multiple scattering, in time and frequency, according to the 2D wave equation.
Language: Mathematica - Size: 5.83 MB - Last synced: about 1 year ago - Pushed: over 6 years ago - Stars: 7 - Forks: 3
akohta/bem3_aw_b2
This is the three-dimensional acoustic wave scattering analysis program for arbitrary objects irradiated by arbitrary beams. This is the extension of "bem3_aw_b1" using iterative solution. This program can analyze multiple scattering between objects with less memory than "bem3_aw_b1".
Language: C - Size: 34.5 MB - Last synced: 4 months ago - Pushed: over 2 years ago - Stars: 0 - Forks: 1
akohta/emf_mie_ms
This is the electromagnetic field analysis program for spherical particles. The radiation force acting on the sphere can be analyzed. This is based on Mie scattering theory.
Language: C - Size: 52.1 MB - Last synced: about 1 year ago - Pushed: almost 2 years ago - Stars: 0 - Forks: 1