Spectroscopy of the B1Πu—X1Σ+g system of K2 using the fluorescence induced by a Kr+ laser

Spectroscopic studies have been performed on Srz molecules produced in a seeded molecular beam. Two-photon excitation techniques were used to investigate excited states of Sr2: the A+X system has been observed using two-photon ionization while depletion spectroscopy allowed us to characterize a new

## spectra of 3gic2. 3qK4'kC and 4t The ass$nment of B 'n,-X K;z formed in 3 nozzle beam Iuve been measured and analyscd. t E,'has been revised. Correct vibrational rend rotations1 constm-m for both the ground S i rz and the excited B \*R, states are-reported. =

The laser-induced fluorescence (LIF) spectrum of the B 3 ⌸ 0 ϩ u -X 1 ⌺ g ϩ system of Br 2 was recorded by Fourier transform spectroscopy (FTS). The LIF spectra were obtained by using continuous-wave dye laser excitation in the spectral region 16 800 -18 000 cm Ϫ1 . About 1800 rotationally resolved

We report the observation of a band system between 510 and 540 nm in laser induced fluorescence spectra of Cs2 excited by the Ar + laser lines Aexc = 488 nm, Aexc = 496.5 nm and A~xc = 501.7 nm. Using potential energy curves of Cs2 and performing quantum mechanical simulations of the spectra we assi

The spectroscopy of the Br 2 B 3 P(0 / u ) -X 1 S / g system has been revisited using both high-resolution Fourier transform spectroscopy and laser-induced fluorescence techniques. Improved rotational constants are reported based on an analysis of 97 vibrational bands observed in absorption at 0.02