THE PURE ROTATIONAL SPECTRUM OF THE ZnSH RADICAL (X$^{2}$A$^{\prime}$)
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Date
2011
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Publisher
Ohio State University
Abstract
The pure rotational spectrum of the ZnSH radical (X$^{2}$A$^{\prime}$) has been observed in the laboratory for the first time using millimeter/submillimeter direct-absorption methods and Fourier-transform microwave (FTMW) techniques in a frequency range of 4-400GHz. ZnSH was synthesized by reacting zinc vapor with H$_{2}$S under DC discharge in a Broida-type oven for the millimeter work; in the FTMW studies, the radical was created by discharge assisted laser ablation spectroscopy (DALAS) using 0.5\% H$_2$S in Ar and a zinc rod. The K-ladder structure indicates C$_{s}$ symmetry, and therefore a bent molecule. Spectra of multiple isotopologues have been recorded ($^{64}$ZnSH, $^{66}$ZnSH, $^{68}$ZnSH, and $^{64}$ZnSD), from which an r$_{0}$ structure has been determined. Each K-component consists of spin-rotation doublets with a splitting of 130-140MHz. Proton hyperfine structure was observed in the FTMW data. Rotational, spin-rotation, and hyperfine constants have been determined from a global fit to the data. Although ZnSH and ZnOH are isovalent, there appear to be subtle differences in bonding between the two species.
Description
Author Institution: Department of Chemistry and Biochemistry, Department of Astronomy, and Steward Observatory, University of Arizona, Tucson, Arizona 85721