Laser-induced fluorescence excitation spectrum of thiophosgene cooled by supersonic expansion

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

Tbe laser-induced fluorescence excitation spectmm of the S,+& transition of jet-cooled chrysene is reported for the first time in the range 26500-29800 cm-l, together with experimentally recorded rovibronic band contours of six of the more active transitions in the spectrum. A preliminary analysis o

The high resolution, rotationally resolved laser induced fluorescence spectra for the A2A1 left and right arrow X2E transitions of CF3O and CF3S were recorded. In addition to the origins, the symmetric vibrational band 301 and the nontotally symmetric bands 501 and 601 were analyzed for CF3O, while

cilz is produced by pulsed YAG laser vaporization of calcium metal and cooling of the vapor in a pulsed supersonic jet. The Ca2 spectra are studied by time-resolved laser-induced fluorescence. The esistence of a low-lying A 'xi state with voo = 14517 f 2 cm-' and wc = 131 cm-t is confirmed\_ The spe