The fluorescence excitation spectrum of rotationally cooled NO2

A tunable. pulsed dye Iaser with output in the region of 5750 to 6000 X was used to excite rotationally cooled NO1 which was produced by expansion in conjunction with argon carrier gas through ;t supersonic nou!e. The resulting timeresoked fiuoresccnce excitation spectra were used to measure the lif

The lowest excited singlet site of 9,10-dihydroanthracene has been studied by supersonic-jet laser spectroscopy. The spectrum consists of a number of prominent low-frequency vibronic bands near the O-O band followed by a structureless continuum. The low-frequency vibronic bands are nicely fitted wit

## Four highdrotational lines in the ground state of Ha0 and one in the y= 2 state have been measured in the laboratory. One of them, 174,13-167.1~ in the ground state, is predicted to be an interstellar maser line under certain physical conditions. Following the laboratoty measurements, the 17 ~,

The vIbrational structure in the laser-induced fluorescence excitation spectrum of the fust excited TT\* .-n transition of thiophogene, seeded in a supersonic beam of argon, is reported. Hot bands are identified empirically by variation of beam temperature, and vibronic assignments are adjusted as r