Detection of atomic oxygen and nitrogen created in a radio-frequency-driven micro-scale atmospheric pressure plasma jet using mass spectrometry

• Published in: Plasma physics and controlled fusion Vol. 54; no. 12; pp. 124046 - 124053
• Main Authors: Maleti, D, Pua, N, Lazovi, S, Malovi, G, Gans, T, Schulz-von der Gathen, V, Petrovi, Z Lj
• Format: Journal Article
• Language: English
• Published: IOP Publishing 01.12.2012
• ISSN: 0741-3335; 1361-6587
• DOI: 10.1088/0741-3335/54/12/124046

In this paper we show mass spectrometry results for a radio-frequency-driven micro-atmospheric pressure plasma jet (μ-APPJ) discharge obtained using a mass analyzer with triple differential pumping allowing us to sample directly in ambient atmospheric pressure environment (Hiden HPR-60). The flow of the buffer gas (mixture of helium and 1% oxygen) was 2 slm and 3 slm and the excitation frequency was 13.56 MHz. We monitored production of atomic oxygen and nitrogen in the plasma for different flows and powers given by the RF power supply. These measurements were made for energies of electrons emitted from the ionization filament below the threshold for dissociation of O2 and N2. In addition to oxygen and nitrogen atoms, yields for O2, N2, NO and O3 are recorded for different powers and gas flows. It is shown that the μ-APPJ is symmetrical and operates in α-mode. The power transmitted to the discharge was below 5 W in all measurements.