UV continuum emission and diagnostics of hydrogen-containing non-equilibrium plasmas

Abstract

For the first time the emission of the radiative dissociation continuum of the hydrogen molecule (a3g+ b3u+ electronic transition) is proposed to be used as a source of information for the spectroscopic diagnostics of non-equilibrium plasmas. The detailed analysis of excitation-deactivation kinetics, rate constants of various collisional and radiative transitions and fitting procedures made it possible to develop two new methods of diagnostics of: (1) the ground X1g+ state vibrational temperature Tvib from the relative intensity distribution, and (2) the rate of electron impact dissociation (d[H2]/dt)diss from the absolute intensity of the continuum. A known method of determination of Tvib from relative intensities of Fulcher-α bands was seriously corrected and simplified due to the revision of d a transition probabilities and cross sections of d X electron impact excitation. General considerations are illustrated with examples of experiments in pure hydrogen capillary-arc and H2+Ar microwave discharges.

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