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Rotational relaxation time in free jets of He + N2 mixtures

✍ Scribed by Andrey E. Belikov; Ravel G. Sharafutdinov

Publisher
Elsevier Science
Year
1995
Tongue
English
Weight
378 KB
Volume
241
Category
Article
ISSN
0009-2614

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✦ Synopsis

Non-equilibrium rotational energy distributions of N 2 in free jets of He + N2( < 5%) were measured by the electron beam technique. The rotational temperature was derived from the spectrum of the first negative system of Nf induced by high energy (E ~ 10 keV) electrons. The experimental data were compared with kinetic calculations of rotational energy in free jets based on the linear relaxation equation: d ER/d t = -(E R -Et)/~. The rotational relaxation times I-were derived from available transport collision integrals, evaluated with three different potential energy surfaces: HFD1, B'IT and M3SV. The HFD1 surface leads to an overestimated rate of rotational relaxation. Two other surfaces agree satisfactorily with experiment, similarly as observed by Dickinson et al. for transport coefficients. To decide between BT1 ~ and M3SV, more precise measurements should be carried out over a wide temperature range.

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Multi-quantum transfer vibrational relaxation in supersonic jets of I2(B, Ξ½β€²=43) seeded IN Ar, N2 and CO
✍ Zhiliu Ma; Ruiping Huang; Cunhao Zhang πŸ“‚ Article πŸ“… 1989 πŸ› Elsevier Science 🌐 English βš– 314 KB

A LIF technique that employs a precisely positioned, varying view, field has been developed to give quantitative measurements for vibrational relaxation rates in supersonic jets of IZ(B, u' ~43) seeded in Ar, N, and CO. The multiple vibrational quantum transfer effect is very pronounced. In particul