These are curves that show the relative slope evolutions (like https://drupal.star.bnl.gov/STAR/blog/bsumma/parameterized-fit-fuctions-non-linearity-w-radiation-damage ), but with the transition points between the low, medium, and high energy regimes fixed.

Note that both documents have 52 points, however the small cells have a point every 3 weeks instead of every one, due to me wanting to see the long term effects.

Curves are taken with an eta's
   large cell: 3.05<eta<3.15
   small cell: 3.65<eta<3.75

Explanation of Parameters (param[i] in the csv)
    0: Y-intercept of fit to lowest energy region
    1: Slope of fit to lowest energy region
    2: Slope of fit to medium energy region
    3: Slope of fit to highest energy region
    4: First turnover point (gamma energy of transition between lowest energy and medium energy regions). FIXED to 8.60402 in large cells and 10.1867 in Small Cells
    5: Second Turnover point (between medium and high energy region). FIXED to 20.0762 in large cells and 34.1256 in small cels

Curves are made such that the function equals 1 an energy of 12.5 in the large cells and 20 in the small cells.

Normalizing factor gives the actual nPhotons/GeV at those energies. It's decrease shows the relative changes in the overall scale of energy.