Analysis of ion radiation characteristics in the middle and late stages of laser-produced Cd plasma evolution in vacuum

In this paper, the EUV spectra of the middle and late stage of expansion of laser-produced cadmium (Cd) plasma were measured using a spatiotemporally resolved laser-produced plasma spectroscopic technique. The 4p-6s resonance transition arrays from Cd4+ to Cd7+ ions dominate the spectrum, which has been identified with the aid of the Hartree-Fock (HF) method with relativistic corrections (HFR) using the Cowan suite of codes. Several new spectral lines were demonstrated for the first time and were tentatively assigned. Spectral simulations of the plasma expansion into a vacuum based on the assumption of a normalized Boltzmann distribution among the excited states associated with a steady-state collisionalradiative model were also carried out to obtain the plasma parameters by comparing experimental and simulated spectra. The dominant ion stages and the corresponding ion fractions for different ion stages were obtained. In addition, we have discussed in detail the evolution of the rate coefficients with electron density and electron temperature. Numerous physical aspects, including ion expansion energy, electron ion thermalization time, plasma sound speed, electron plasma velocity and frequency, skin depth, as well as plasma coupling parameters were investigated. We have also found good agreements between experimental and theoretical synthetic spectra using excitation temperatures of 14 eV and 15.5 eV.,. These results should be helpful for further spectral identifications in the fields of plasma diagnostics and nuclear fusion. (C) 2021 Published by Elsevier Ltd.

Automated summary

This study measured the EUV spectra of laser-produced cadmium plasma in the middle and late stages of expansion. By comparing experimental and simulated spectra, plasma parameters were obtained and various physical parameters were investigated. Good agreements between experimental and theoretical synthetic spectra were found, which would be helpful for further spectral identifications in plasma diagnostics and nuclear fusion.