N2(A3S+u) density measurement in a dielectric barrier discharge in N2 and N2 with small O2 admixtures

This paper deals with the measurement of N2(A3+ u ) metastable state density in a dielectric barrier discharge in nitrogen and nitrogen with small admixtures of oxygen, operating in a Townsend-like discharge regime. The measurement is made by optical-optical double resonance-LIF, calibrated by a method based on the measurement of the ratio of nitrogen second positive system and NO-? emissions, and of NO density by LIF. A metastable density of the order of 1013 cm-3 was found in a nitrogen diffuse discharge. Addition of small oxygen concentrations to the discharge drives a transition to the filamentary regime that appears to be caused not by a marked decrease of the metastable density in the discharge but rather by a considerable increase of its quenching rate. Such an increase, due to collision quenching by O2 and O, strongly reduces the survival of the metastable between two discharge pulses. These observations are consistent with the idea that the diffuse regime can be due to a space charge memory effect due to the nitrogen triplet metastable, which is cancelled by the introduction of oxygen in the gas feed.