100 to 760 Torr (atmospheric gas pressure). The determination of N -atoms density in high-pressure Ar − N2 microwave afterglow is revisited. First, it is observed that pure pink afterglows are mainly obtained at high pressures up to atmospheric gas pressure, which is an aN+N factor of N + N recombination near 0. Second, there is an uncertainty in the range k = 10−11 −10−12 cm3 s−1 on the k-rate coefficient of the reaction π2,π£ > 13+π2(π΄) → π2(π΅,π£′)+π2 which dominates the pink afterglow An enhancement of the π2(π΅,π£′ = 8)/π2(π΅,11) density ratio is observed up to the atmospheric gas pressure. It was interpreted by a reduction of the quenching of the π2(π΅,π£′ = 8) by Ar. Values of the π +π recombination rates were determined when ππ+π > 0.1. It was found a large uncertainty depending on the N2( B,v′ = 11) quenching rates found in the literature. It is estimated a decrease in the N + N recombination rates by 0.6 in the Ar− 2% N2 in comparison to pure N2 afterglow. The determination of N-atoms density in high-pressure Ar- xN2 microwave afterglow is revisited. First, it is confirmed that pure pink afterglows are mainly observed at high
Author
(s) Details
AndrΓ© Ricard
LAPLACE, UniversitΓ© de Toulouse, CNRS, INPT, UPS, 118 route de Narbonne,
31062 Toulouse Cedex 9, France.
Jayr Amorim
Department Fisica, Inst. Tec. Aeronautica 12228-900, Sao Jose dos Campos,
Brazil.
Please see the book here:- https://doi.org/10.9734/bpi/mono/978-93-49473-93-5/CH18
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