HP42s routines for Atomic Physics and Ultrafast Optics
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Updated
Dec 27, 2017 - Perl
HP42s routines for Atomic Physics and Ultrafast Optics
Parts of my master work on the propagation of femtosecond laser pulses in diffractive and refractive media.
Suite of tools and methods for the analysis and simulation of optical beam. Available on PyPI
Standard operating procedure for the ultrafast laser and electron diffraction setup.
EUV + IR electron spectroscopy in multi-level autoionizing systems
Python for ultrashort laser pulse retrieval
Extract the 15MHz clock signal from 400 picosecond pulse train
Python modeling for ultrafast optics and supercontinuum generation
A Python code implementing the weak-field asymptotic theory (WFAT) for structure factors of tunneling ionization rates
Set of MATLAB formulas for computing the nonlinearity of graphene, with emphasis on the optical band (e.g., NIR) and the self-acting (Kerr-like) effect.
Implementation of classical/semiclassical methods in strong-field ionization of atoms and molecules. [Note: This library is currently under construction, and would be available in the recent months! :D]
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