Spectroscopic Determination of the single-triplet splitting in methylene

A completely resolved spectrum of the strongly forbidden NH (a 1 ⌬ 3 X 3 ⌺ Ϫ ) transition is observed. The NH radicals in the excited a 1 ⌬ state are exclusively generated in a Nd:YAG laser photolysis of hydrazoic acid at a wavelength of 266 nm. The NH (a 1 ⌬ 3 X 3 ⌺ Ϫ ) intercombination transition

High resolution Raman spectra of liquid CH,Br, show Y, as a narrow doublet at 2983-2992 cm-r. Both components are polarized. The splitting of Y, is produced by Fermi resonance. The Fermi coupling coefficient W is 4.6kO.2 cm-'. The doublet is observed in inert solvents but not in deuteroacetone due t

Zero-field-splitting parameters D and E for the fullerene GO in its Jahn-Teller distorted triplet state were calculated and compared to recent experimental results. The E value vanishes due to symmetry, while we obtained a non-zero k) value of D = -0.009 cm-' in the Ds distorted lowest triplet state

It is shown that abrupt discontinuitlrs occur in the zero-field sphtting parameters of the lsolatcd amino acid, tryptophan, and its derivatives as a function of the wavelength of the optically detected emission from the excited triplet state. These discontmuxties Jre nttrlbuted to the convolution of