The electronic spectrum of cyanogen

The rotational spectrum of cyanogcn azide has been assiyxed and yields values of A = 35.06737 CHz, 3 = 3.15517 GHz and C= 2.93357 GHz. The mxsured dipole moment components of g"a = 2.96 D, .uo = 0.44 D, ptOt~ = 2.99 Dare compared with those computed using a CND0/2 approach for NC?43 and screral rela

The Raman spectrum of cyanogen 12 C 2 14 N 2 has been investigated at nearly Doppler resolution by means of the Stimulated Raman technique. The regions around the Q branches of the n 1 (2330 cm 01 ) and n 2 (845 cm 01 ) vibrations have been recorded. Besides the fundamentals, hot bands arising from

The high-resolution infrared spectrum of \(\mathrm{ICN}\) has been studied from 460 to \(2700 \mathrm{~cm}^{-1}\) with a Fourier transform spectrometer. The band origins and rotational and centrifugal distortion constants have been determined for the \(10^{\circ} 0-00^{\circ} 0,11^{1} 0-01^{1} 0,20^

The Raman spectrum of cyanogen 13C214N2 has been investigated at nearly Doppler resolution by means of a stimulated Raman technique. The regions around the bandheads of the nu1 (2260 cm-1) and nu2 (835 cm-1) vibrations have been recorded. Besides the fundamentals, hot bands arising from v5 = 1-3 and