The 0+u(6 3P1)←X0+g spectrum of Hg2 excited in a supersonic jet

The G0 / u (6 1 P 1 ) -X 0 / g excitation and fluorescence spectra of Hg 2 van der Waals molecules, produced in a pulsed free-jet supersonic expansion beam crossed with a pulsed dye-laser beam, were studied using Ar as the carrier gas. A well-resolved vibrational structure of the G0 / u R X 0 / g ex

Isotopically pure 2°2Hg vapor, contained in a quartz cell, was irradiated with the 2572•5 ,~ output from a frequency-doubled Ar + laser, which produced Hg 2 A0g ~ excimer molecules by photoassociation followed by collisional relaxation• Simultaneously applied probe radiation from a ring laser, scann

The \(a^{3} \Sigma_{\mathrm{u}}^{+}\left(a_{1} 1_{\mathrm{u}}\right) \rightarrow X^{1} \Sigma_{\mathrm{B}}^{+}\left(X 0_{\mathrm{B}}^{+}\right)\)near-infrared transition of \(\mathrm{Bi}_{2}\), which was recently observed in the thermal emission spectrum of bismuth vapor by Barrow et al. (Chem. Phys

The fluorescence excitation spectrum of pyrene obtained in a supersonic jet for the S ,\_,-+Sz transition shows a complicated structure due to the interaction of discrete levels of S, with the quasi-continuous levels belonging to S,. The intensity distribution pattern in this region has been evaluat

-0) subbands at 4641 and 445.6 nm are idenlified in the fluorescence exciralion specua or NO, roIa1ionally cooled in a supersonic jet. The origins of both bands agree well with a calculakm based on rhe theory of Ihe Renner-Teller effect. and the Mbrarional signmenu ui = 14 and 16 are given IO the up