Emission spectra produced from the reactions of Ne+ and Ar+ ions with OCS at thermal energy

The OCS'(A 'lTrrR 'Up: Q= l/2,3/2) emission resultmg from the Ar+('P,,,) +OCS charge-transfer reaction has been reexamined in a low-pressure flowing afterglow. The fluorescence channel in the the 0" level was found to be open for rotationally excited levels up to Jz 170 ( z 5500 cm-'). The rotation

The CS + (A2Hi-X 2~+ ) emission has been observed in the C + (2p)+ocs reaction at thermal energy in a flowing afterglow apparatus. New bands of CS + (A 2 II~-X 2~ + ) from v'= 10-14 to v"= 0-3 were identified. The vibratio.nal populations in the CS + (A21-I~) state were estimated by spectral simulat

\(\mathrm{N}_{2}^{+}\left(\mathrm{B}^{2} \Sigma_{\mathrm{u}}^{+}-\mathrm{X}^{2} \Sigma_{\mathrm{g}}^{+}\right)\)emission was observed from the near-resonant charge transfer between \(\mathrm{Ne}_{2}^{+}\)and \(\mathrm{N}_{2}\). Vibrational populations for \(v^{\prime}=0\) and 1 of \(N_{2}^{+}(B)\) w

The ArF\*, KrF\*, and XeF\* emissions resulting from dissociative ion recombination between rare gas cations and SF, anions have been studied in the flowing afterglow. The anions were formed by thermal electron capture by SF,. The KrP product state distribution from the two Kr+ ('P 3,2,,,2) spin-orb

The extensive bands observed from the hehum afterglow reaction of SO\* m the 250-540 mn region are assigned to the new SO+(A \*rt--X\*l$) system produced from the He\*/S02 dissociative charge-transfer reaction at themA energy. They had been erroneously mterpreted as the SO; (c-4 system produced from