| Name | Version | Summary | date |
| gnpy |
2.11.1 |
None |
2025-01-15 17:04:15 |
| threed-optix |
5.0.32 |
None |
2024-12-19 11:50:36 |
| tmm |
0.2.0 |
Simulate light propagation in multilayer thin and/or thick films using the fresnel equations and transfer matrix method. |
2024-11-26 18:53:54 |
| DBOpt |
1.0.0 |
Bayesian optimized parameter selection for density-based clustering algorithms |
2024-11-05 21:26:52 |
| odak |
0.2.6 |
Odak, the fundamental Python library for scientific computing in optical sciences. |
2024-10-26 13:46:42 |
| tracepy |
0.2.0 |
Optical design software for python. |
2024-09-03 01:25:19 |
| raytracing |
1.3.12 |
Simple optical ray tracing library to validate the design of an optical system (lenses positions and sizes, focal lengths, aperture and field stops). Support for Monte Carlo raytracing to estimate transmission efficiency and powers, limited but functional Zemax file loader for lenses, several material dispersion curves included for chromatic aberrations all coming from http://refractiveindex.info |
2024-08-27 12:18:59 |
| nannos |
2.6.2 |
Fourier Modal Method for multilayer metamaterials |
2024-03-13 16:23:32 |
| drpangloss |
0.0.1 |
Python package to fit interferometric data, accelerated using Jax. |
2024-02-23 05:43:15 |
| otbench |
0.24.1.7.1 |
Consistent benchmarks for evaluating optical turbulence strength models. |
2024-01-07 20:45:16 |
| openphoton |
0.1.7 |
A scalar diffraction simulation package |
2023-12-13 02:14:14 |
| gyptis |
1.0.2 |
Computational Photonics in Python |
2023-11-29 18:09:58 |
| lenses |
1.2.0 |
A lens library for python |
2023-10-24 17:43:13 |
| qpimage |
0.9.2 |
library for manipulating quantitative phase images |
2023-10-16 13:50:22 |
| dLux |
0.14.0 |
Differentiable Optical Models as Parameterised Neural Networks in Jax using Zodiax. |
2023-10-04 04:01:31 |
| waveplate |
0.0.5 |
A python library for simulating optics |
2023-09-19 13:06:52 |
| py-pol |
1.1.3 |
Jones and Mueller polarization - Optics |
2023-09-06 14:43:33 |
| optnn |
0.1 |
The library, which serves as the simulator of the 4f free-space system. It uses the custom convolutional layer in PyTorch, which uses the simulation of the light propagation in the 4F device. |
2023-01-19 21:56:09 |
| qpretrieve |
0.3.2 |
library for phase retrieval from holograms |
2023-01-04 22:18:00 |