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Spatially Resolved N-2(A(3)Sigma(+)(u), nu=0) Decay Studies in the Pulsed Direct-Current Nitrogen Discharge using the Laser-Induced-Fluorescence Technique
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Indexed by:期刊论文
Date of Publication:2014-03-01
Journal:CHINESE PHYSICS LETTERS
Included Journals:SCIE、ISTIC
Volume:31
Issue:3
ISSN No.:0256-307X
Abstract:We focus on the investigation of the spatial distribution and temporal evolution of N-2(A(3)Sigma(+)(u), nu = 0) in a very early afterglow of a pulsed dc nitrogen discharge. The results indicate that a fast quenching process of N-2(A(3)Sigma(+)(u), nu = 0) exists in the very early afterglow. We study the dependence of this fast quenching process on the discharge pressure 20-40 torr. It seems that this fast quenching behavior of N-2(A(3)Sigma(+)(u), nu = 0) found in our experiment can be ascribed to the combined action of pooling reaction and collisions with N atoms through N-2(A(3)Sigma(+)(u))+N-2(A(3)Sigma(+)(u))-> N-2*+N-2(N-2*=N-2(B-3 Pi(g), C-3 Pi(u), C'(3) Pi(u), C ''(5) Pi(u))) and N-2(A(3)Sigma(+)(u))+N(S-4)-> N(P-2)+N-2, respectively. Meanwhile, the decay studies of N-2(A(3)Sigma(+)(u), nu = 0) near the anode and cathode infer that the production of N(S-4) atoms does not distribute uniformly along the axis of the discharge gap at relatively low pressure, and this effect becomes gradually inconspicuous with the increasing discharge pressure.
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