Infrared spectroscopy of jet-cooled transient molecules

Rcccivcd '21 i-'ebruJry 1984 The vt t band of cyclupropane bctwecn 850 and 880 cm-' has been recorded in 3 molrcular beam source using ;L tunable infrarrd diode Inscr. The beam from 3 50rm nozzle ~'3s chopped 31 about I kHz and the absorption synchronously dctcctcd. Preliminary analysis yields 3 val

Direct absorption spectra ofjet-cooled molecules are recorded by m$tipassing an infrared laser beam through a nozzle expansion and with all light rays perpendicular to the nozzle axis. A small blade is placed just upstream of the laser crossing to obstruct the passage of molecules that would otherwi

Rovibrational spectra of Hz, HN:, and H30+ generated in discharge jet-expansion have been studied using a differencefrequency infrared source, The rotational temperatures were determined to be 120 i 20,273 + 20 and 150 -f: 20 K for H: , HN$ , and HsO+, respectively. Some dynamic phenomena of the jet

The n 5 (A 2u ) and n 7 (E u ) C-F stretching fundamentals of hexafluoroethane, C 2 F 6 , have been recorded in a supersonic jet by diode laser absorption spectroscopy. The parallel 5 1 o band is accompanied by five satellite bands, of which three have been assigned to hot bands. A fourth satellite

We report the application of infrared degenerate four-wave mixing (IR DFWM) spectroscopy to probe rotational-vibrational transitions in the v3/v 2 + ~' 4 + v5 Fermi dyad region of jet-cooled C2H 2. The spectral intensities show a quadratic population dependence, and are well reproduced by a Boltzman