Laser spectroscopy of the 3Σ+u(4 3P, 4 3P) state of Zn2

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

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

\(\mathrm{S}_{2}\) was generated by photodissociation of \(\mathrm{S}_{2} \mathrm{Cl}_{2}\) and the \(B^{3} \Sigma_{u}^{-}\)state was investigated for \(v^{\prime}=\) \(0 . .8\) by laser excitation spectroscopy from the ground state. Bands were detected and assigned up to rotational levels \(N^{\pri

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

A bound state \(\mathrm{CO}^{+}\)of \(\mathrm{KI}\) is found, which correlates to the atomic asymptote \(\mathrm{K}\left(4 p^{2} P_{3 / 2}\right)+\) I( \(\left.5 p^{52} P_{3 / 2}\right)\) and has an internuclear distance of \(3.7356(88) \AA\) and a dissociation energy of \(893.1(50)\) \(\mathrm{cm}^

## Abstract The cadmíum (II) phosphine complexes (Et~3~P)~2~Cd~2~X~4~, (R~3~P)~2~CdX~2~ [R~3~P = Ph~3~,P, Bu~3~P, Et~3~P, 1‐phenyldibenzophosphole (DBP), and 1‐phenyl‐3,4,‐dimethylphosphole (DMPP)] and (Bu~3~P)~3~Cd~2~X~4~ (X = Cl, Br, I) have been prepared and their solution and solid state struct