Investigation of enhanced HgBr(B2Σ+−X2Σ+) laser emission due to collisions of Xe ions and HgBr2

We have used the frequency-doubled output of a cw Ti:sapphire laser to observe the spectrum of an \(8-\mathrm{keV} \mathrm{SiO}^{+}\)beam in the region \(368-386 \mathrm{~nm}\). Almost 1400 lines of the \((0,0),(1,0)\). \((1,1),(2,1),(2,2),(3,2)\), and \((3,3)\) bands of the \(B^{2} \Sigma^{+}-X^{2}

We have completed a deperturbation analysis of a set of measurements in \(\mathrm{SiO}^{+}\)including seven bands of the \(B^{2} \Sigma^{+}-X^{2} \Sigma^{+}\)system, the \((2,0) \Omega=\frac{1}{2}\) sub-band of the \(B^{2} \Sigma^{+}-A^{2} \Pi\) system, and fine structure intervals of the \(v=0\) le

A new method for ion spectroscopy is introduced which is particularly useful for polyatomic ions. The ions are mass selected, and spectroscopically analyzed by a pulsed dye laser employing photofragment detection subsequent to absorption. The sensitivity of this apparatus permits the measurement of

Six new electronic transitions of NiCl, recorded by high-resolution Fourier transform spectroscopy, have been studied. The identification of the states involved in these transitions has been made possible by dispersing laser-induced fluorescence at low resolution. Comparison of the results obtained