Observation of Magnetic–Dipole Transitions in the CN B2Σ+–A2Π Band System

The A 2 ⌸ r -X 2 ⌺ ϩ emission spectrum of the magnesium monobromide radical, MgBr, has been recorded with a Fourier transform spectrometer modified to record double-sided interferograms. The emission spectra of the ⌬v ϭ Ϫ2, Ϫ1, 0, ϩ1 bands were generated in a microwave discharge of a mixture of argo

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

Transition probabilities for the B 1 + -X 1 + and the B 1 + -A 1 electronic systems are presented for v = 0-4 and J = 0-150 in each electronic state. The functional form of the electronic transition moment for the B-X transition is taken from published ab initio results. The B-A moment is assumed to

TABLE 1 Rotational and Hyperfine Constants for the A 2 ⌸ and X 2 ⌺ ؉ States of 91 ZrN (cm ؊1 ) a a Estimated errors, which are 1 limits, are in parentheses. \* Values given without error limits were kept fixed in the least squares fit.

The A 2 -X 2 + emission band system of the MgCl molecule has been studied by means of high-resolution Fourier transform spectroscopy. Excited MgCl molecules were produced by two different techniques: (i) at Orsay, they were created by mixing Mg vapor with a flow of He/Cl 2 and excited in a "heated"