Laser spectroscopy of the 1Σ+u (4 1P) and 3Πu (4 3P) states in Zn2

The doubly-excited '8: (4 'P, 4 'P ) state of Zn2 was populated using pump and probe methods with time resolution. Structured excitation and fluorescence spectra were observed in the 300-330 nm region and are ascribed to ?5: (4 'P, 4 3P)++31Ts (4 'P) vibronic transitions, with partial resolution of

The 'l&(4 3P, 4 3P) state of the Znz excimer was excited by pump-and-probe irradiation of Zn vapor in a quartz cell. The resulting structured fluorescence and excitation spectra, which were recorded in the 270-290 nm spectral region, are interpreted as arising from 'lIy(4 'P, 4 'P)-'l&(4 'P, 4 'S) v

The spectroscopy of the %~( 4 3P, 4 'P) state in Zn2 was studied by pump and probe methods with time resolution. Structured excitation and fluorescence spectra that were observed in the 266-277 nm region, are assigned as due to 3Xl(4 3P, 4 'P)a: (4 "P, 4 'S) vibronic transitions. Vibrational analysi

A structured excitation spectrum of Zn\* in the 420-470 nm region was registered in zinc vapor subjected to pump-and-probe excitation as the emitted bound-free fluorescence was monitored at 274 nm. The excitation and fluorescence spectra were interpreted as due to transitions involving the 'Z: (5 'S

Polarization labelling spectroscopy is applied to study excited states of K2 lying in the energy range 23800-25800 cm-' above the bottom of the ground state. The two observed states are identified as 3 'l&(4 'S+S 'P) and 3 '&/ (4 \*S+ 3 'D). Molecular constants are derived for both states from a Dun