Ascertaining HED Plasma Temperatures using Generalized Boltzmann Plots

Assessing plasma state through temperature and density measurements is a standard problem in HED science, yet inferring temperature from spectroscopic diagnostics often relies on complex simulations coarsely fitted to experimental data. These forward analyses fold in assumptions that are difficult to disentangle when puzzling inconsistencies arise. To date, inverse analysis of HED spectra has been limited to the line ratio method, which can only analyze a pair of spectral lines. We demonstrate a generalization of Boltzmann plots to the HED regime to provide an alternative inverse analysis method for obtaining temperature from spectral measurements. Boltzmann plots analyze multiple lines simultaneously to statistically constrain temperature, and provide additional points of comparison for checking assumptions in simulations. We demonstrate this technique on x-ray absorption spectra of titanium measured on the COAX platform on Omega-60. LA-UR-20-24580.