Spectroscopy of jet-cooled perylene-d12

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

Fluorescence escitation spectra (FES) and fluorescence spectra (FS) under single vibronic level escitation of perylene in a supersonic jet are reported. The fluorescence from the lowest vibrouic levels of the S1 state is purely resonant while for GEvib > 1600 cm-' broad-band emission spectra weakly

Fluorescence from the pairs an~racene-dimethylanillne (DMA) and perylene-DMA was obscwed in a supersonic nozzle beam enpansron of a mo~ure of the compounds in h&urn. IL x%&s characlertzed zs a charse-transfer (CT) exciplex cmlssion by comparing the emission spectra with those obtained in fluid solut

The resonanceenhanced ionization spectrum of a trimethylcyclohexene compound in which the cyclohexene ring is formally conjugated to a phenylbutadienyl system has been recorded in a supersonic jet expansion. Two strong origin transitions, associated with different ground-state conformers, were ident