Jupyter notebook based Laser Interferometry Toolbox
This module is based on the articles:
- Mitsuo Takeda, Hideki Ina and Seiji Kobayashi, “Fourier-transform method of fringe-pattern analysis for computer-based topography and interferometry”
- Georg Pretzier, "A New Method for Numerical Abel-Inversion"
- IntTool - Core python module with functions for data preprocessing, fourier trasforming, abel inversion
- requirements.txt - Project dependencies
- demo.ipynb - Demonstration of fourier filtration technique and abel inversion on simulated interferograms
- idea_helper.ipynb - Auxiliary symmetrization pipeline for interferogram processing using IDEA
- solid_target - Pipeline to process data from laser-solid target interaction interferometry
- filamentation - Pipeline to process data from filament plasma channel interferometry