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Readme

This software is an archive of the code used to create the scientific figures of the article

Requirements:

  • numpy, scipy, matplotlib, jupyter, possibly other standard python packages
  • pynuss: A software package for nuclear resonance scattering. Currently unpublished and available from the author K. P. Heeg.
  • pyrot: A software package implementing linear dispersion theory and Parratt's formalism for general one-dimensional cavities given by a refractive index profile, created for this paper. Available via pip (see https://github.com/dlentrodt/pyrot).

Contents:

  • License
  • Readme file
  • ML_numerical.py: A class implementing a simple numerical scheme to compute Mittag-Leffler pole expansions of a given function that can be numerically evaluated in the complex plane.
  • cav_functions.py: Helper for functions for evaluation of certain quantities in the complex plane.
  • Subfolders containing scripts creating each figure as pdf output. Additional plots for benchmarking are commented out in the code.