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 𝑁2,𝑣 > 13+𝑁2(𝐴) → 𝑁2(𝐵,𝑣′)+𝑁2 which dominates the pink afterglow An enhancement of the 𝑁2(𝐵,𝑣′ = 8)/𝑁2(𝐵,11) density ratio is observed up to the atmospheric gas pressure. It was interpreted by a reduction of the quenching of the 𝑁2(𝐵,𝑣′ = 8) by Ar. Values of the 𝑁 +𝑁 recombination rates were determined when 𝑎𝑁+𝑁 > 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
André Ricard
LAPLACE, Université 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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