Bidimensional characterization of the emission spectra in a direct current atmospheric pressure glow discharge

An in-house atmospheric pressure glow discharge source, designed to be used as ionization/desorption source for ambient mass spectrometry, has been electrically characterized, and its optical emission spectra evaluated in detail. Electrical characterization showed that the plasma regime can vary from glow discharge to arc discharge depending on operating conditions (i.e. He flow rate and inter electrode distance). Furthermore, bidimensional images of the optical emission of some plasma species using filters as wavelength selectors, were registered from inside and outside the discharge chamber (inner region and afterglow region respectively), showing the spatial distribution of excited species (i.e. He*, N2+ and O*). These distribution patterns are useful to study the chemistry of the discharge plasma, since different production pathways and different excitation energies affect the presence of these species in the plasma regions.

► An in-house APGD is characterized through electrical and OES measurements.
► Interelectrode distance had more effect on electric regime than He flow rate.
► Internal plume images showed differences on the production pathways for each species.
► Higher interelectrode distances and He flow rates showed better afterglow conditions.