Formation of CN(B2Σ+) by electron-impact dissociation of BrCN

The rotational structures of the (0,O) sequence of the violet (B "\_-X'.Z) band system of CN produced by the electronimpact dissociative excitation of HCN were measured under such conditions that secondary reactions czn be disregrded. The distribution of the spectral intensity was essentially indepe

The (0,O) sequence of the violet (B '2-X' 2) band system of CN produced by the elcctran impact dis.so&tive cxcitatiar. (200 eVI of HCN, BrCN and CzNz was measured. From the rektivc intensities of the R( 14) lines split by rotation4 pertiubatian. the ratio of the formation rate of the A2fl state to

Emission spectra of the CN violet band system (B \*Z-X \*S) were observed by the eIectron impact on HCN with seberal impact ener@s near me thieshold. The formation of CN(B) by the dissotiti~ excitation of HCN m invest&t&-The -hoId eneey weed essentiaUy with that obt&ned by the photodissociation meas

The absolute cross section for the electron-impact formation of a radical fragment is determined by measuring its laser-induced fluorescence in comparison with that of N:(X, v=O); cross sections for CN(X, u=O) from BrCN and CHsCN are 5.5~ lo-" cm' and 8.5 x IO-" cm', at 200 eV, respectively. The rot

Excitation functions of the NH( A 311-X '2; -, c 'II-a 'A) radiation following single-electron impact on ammonia were measured from 9 eV up to 160 eV. Several wavelength intervals of the NH emission spectrum were studied. For the A 'II-X 'Ztransition the excitation functions were found to vary with