A crossed beam study of the reaction C(3P) + N2O: energy partitioning between the NO(X 2Π) and CN(X 2Σ+) products

The reaction C( 'P) +NsO(% \*C+) is studied by varying the kinetic energy of C(3P) in two center-of-mass regimes: 0.1-0.2 eV and 2-7 eV. C( 3P) is directly observed, and the C, velocity distribution is estimated from the time-of-flight of Cs. CN(X %+) is vibrationally inverted and rotationally 'hot'

The formation of NO (A,v) and NO(B,v) was investigated from the reaction Co(a,v') + NO(X,v" -0) in a beam-beam configuration. The nascent rovibrational distributions of NO(A,v-0-2) and NO(B,v-0-2) were determined from NO(A ~ X) and NO(B ~ X) emissions by means of spectral simulation. The branching r

## Abstract A novel supersonic beam of ground‐state boron atoms [B(^2^P)] was employed to investigate the reaction of B(^2^P) with acetylene [C~2~H~2~(^1^Σ~g~^+^)] at an average collision energy of 16.3±0.4 kJ mol^−1^ at the most fundamental microscopic level. The crossed molecular beam technique w

Branching fractions are determined for the product NO (A 'X+, u= 0,l) and NO( B 'II, v= 0) emissions as a function of v' in the energy transfer reaction N,(A 'Z:, v') tNO(X 211n v"=O) in a rapidly pumped discharge-flow reactor operated at a total 2 pressure of TC 2 Torr at % 295 K. Using the NO( A Z

The energy transfer reaction of metastable N2(a lI-Ig, v') prepared by a dc discharge of high-purity nitrogen with CO(X 1E, v" = 0) was investigated by measuring the vacuum ultraviolet emission spectra of the electronically excited species CO(A 11-1, v') and NE(a lIIg, v') during the collision perio

Branching fractions are determined for the product NO(A2X +, v = 0, 1 and 2) and NO(B 2I-Ir, v = 0) emissions as a function of v' in the title reaction. Using the NO(A2X +, v' = 0-2 ~ X 2lit, v") "r, Av = v' -v" = -4, -5 and -6 and the NO(B2FIr, v'=0~X2Ilr, v") /3, Av=-6 and -7 band intensities we d