Jet spectroscopy of isoquinoline

Pyrolysis jet spectroscopy, in which precursor species are heated to pyrolysis temperatures just prior to expansion from the nozzle of a supersonic free jet, is demonstrated to be a viable technique for the production and characterization of rotationally cold transient molecules and free radicals.

The laser-induced fluorescence spectrum of SK& in the near-ultraviolet has been recorded using the pyrolysis jet technique. Pyrolysis of SiHCls has been shown to be an effective method of producing SiCla for spectroscopic studies. The spectra show resolved rotational subband structure and chlorine i

Resonant two-photon ionization spectroscopy has been used to study the supersonically cooled metal cluster, A&u. One electronic band system has been observed, with the origin band at I7525 cm-'. Vibronic progressions have been found and analyzed using a least-squares fitting procedure. The molecule

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

The fluorescence excitation spectra are reported for complexes of anthracene with n-alkanes. The spectra have only weak lowfrequency mode structure, which indicates that the complexation geometries are stable with respect to excitation of the anthracene host. At the 2: 1 complexation Ievei, the spec