Plasma heating power dissipation in low temperature hydrogen plasmas

TL;DR

This paper develops a theoretical framework to analyze power dissipation in low temperature hydrogen plasmas, focusing on photon emission, ionization, and chemical potential, with validation against experimental data.

Contribution

It introduces a weakly parameter-sensitive theory for power dissipation in low temperature plasmas based on conservation laws and reaction cross sections.

Findings

Calculated photon emission aligns with experimental results

Power dissipation to ionization and chemical potential quantified

Framework applicable to atomic and molecular hydrogen plasmas

Abstract

Theoretical framework for power dissipation in low temperature plasmas in corona equilibrium is developed. The framework is based on fundamental conservation laws and reaction cross sections and is only weakly sensitive to plasma parameters, e.g. electron temperature and density. The theory is applied to low temperature atomic and molecular hydrogen laboratory plasmas for which the plasma heating power dissipation to photon emission, ionization and chemical potential is calculated. The calculated photon emission is compared to recent experimental results.