High-Resolution Study of theX21 →X10+Fine-Structure Transition of BiF

The near-infrared emission spectra of the X 2 2 ⌸ 3/2 3 X 1 2 ⌸ 1/2 fine structure transitions of PbF and PbCl have been investigated by high-resolution Fourier-transform spectrometry. Despite the large fine structure splitting, the bands can be equally well analyzed with Hund's case (a) or case (c)

The near-infrared emission spectra of the \(X_{2}{ }^{2} \Pi_{1 / 2} \rightarrow X_{1}{ }^{2} \Pi_{3 / 2}\) fine-structure transitions of \({ }^{130} \mathrm{TeF}\) and \({ }^{130} \mathrm{Te}{ }^{35} \mathrm{Cl}\) have been investigated by high-resolution Fourier-transform spectrometry. The radical

## Abstract The presented method demonstrates a first step in the development of a high resolution “Residual stress microscope” and facilitates through the implementation of largely automated procedures a fast detection of diffraction lines in the form of conic sections. It has been implemented for

First gas phase spectra of the nitrogen monoiodide radical NI are reported. The b 1 ⌺ ϩ (b0 ϩ ) 7 X 3 ⌺ Ϫ (X 1 0 ϩ , X 2 1) transition of NI has been studied by laser-induced fluorescence measurements. Ground state NI radicals were generated in a fast-flow system by reaction of microwave-discharged