Fine-structure spectroscopy of 2-methylnaphthalene cooled in a supersonic jet

RotauonaUy resokd absorpuon spectra of supersomcalIy cooled NO, In a jet expansion have been observed by mtracawty laser spectroscopy Expenmental parameters charactenzmg the Jet expansion and the mtracav~ty dye laser were varied fo demonstrale Ihe general apphcabdity of quantilative measurements mvo

The diode laser absorption spectrum of the nu(13) band of benzene cooled in a supersonic expansion has been recorded with the help of a multipass optical system built inside the vacuum chamber. Transitions from low J, K values (0-10) are reported for the first time for this band. The observed freque

The laser-induced fluorescence spectrum of gas-phase PHI cooled in a supersonic jet has been observed in the range 490-550 nm. A rotational analysis was carried out for the (0, 0, 0)-(0, 0, 0), (0, 1, 0)-(0, 0,O) and (0,2,0)-(O, O, 0) bands of the A 'A,-X ZBI electronic transition of PHr. About 220

Phthalan has been shown, previously, from the observation of far-infrared puckering transitions, to have a planar skeleton in respect to this puckering motion in the S, electronic state. Supersonic jet fluorescence spectra show, however, that the 1,3-carbon atoms are twisted out-of-plane in a Cz con

The fluorescence excitation spectrum of [2.2]paracyclophane has been recorded from 30675 to 32570 cm-'. Two inter-ring vibrations, the breathing mode and the twisting mode, are responsible for the extensive vibronic structure in this lowest-lying electronic transition. The breathing mode gives rise