State-selected charge transfer reaction of CO+ (X, v; A, v′) with Ar

We have measured the relative total charge transfer cross sections of Hi + Hz as a function of the vibrational state of Hf, ub = 04. using the crossed ion-neutral beam and high-resolution photoionization methods. The experimental results obtained at a center-of-mass collisional energy of 22.5 eV ar

## CS? in an Ar afterglow eshibircd rrnission from the 0'. 1' and 2' levels of CSG(x 'n,-% 'II,). The excitation source was attributed to Ar;. The vibrational frequencies of CS;(.?: U: = 4 and u'; + $u: = 3) were detcrkined from the vibrational analysis of the (u'; ,&.O) progressions from the O" l

The chz.rge transfer reaction Ar' (NO, Ar) NO+ iins studied in n crossed beam experiment at collision cnergics above and below 1 eV (c.m.). Two mechanisms could be distinguished, an cleclron eschange process, and XI intermediate complex for- mation; the latter involves modente momentum exchange betw

Rotational energy transfer cross sections are determined for NO(A 'Z +, u' = 0, N' = 0, 7, and 15) + He and NO(A 'E +, u' = 0, N' =O) +Ar by the two-color, double-resonance ionization method. Rotational jumps up to W = 8 take place as a single collision event. The cross sections determined are discu