MILLIMETER SPECTRUM AND MOLECULAR CONSTANTS OF SILICON MONOXIDE
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Date
1977
Journal Title
Journal ISSN
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Publisher
Ohio State University
Abstract
A new high temperature millimeter wave microwave spectrometer has been constructed and used to measure a wide range of vibrational and rotational states of silicon monoxide. This work results in accurate rest frequencies for all of the intersteller SiO maser transitions that have been observed as well as accurate measurements or predictions of all transitions that are likely to be of astrophysical interest. In addition, the Dunham spectral and potential constants are calculated for the three major isotopic species. For $^{28}Si ^{16}$O: $Y_{01}=21 \ 789.453(11)$MHz,$ Y_{11}= -151.026(11)$ MHz, $Y_{21} = 70.5(24)$ KHz, $Y_{02} = - 29.38(13)$ kHz, $ a_{0} = 5.390(22) \times 10^{5}\mbox{ cm}^{-1},$ $a_{1} = - 2.9899(41),$ $a_{2} = 5.7(7),$ $ a_{3} = - 9.0(5)$. The calculated equilibrium parameters for $^{28}Si ^{16}O$ are: $B_{e} = 21= 787.5(10) MHz$, $\omega_{e} = 1252.(3) cm^{-1}, \omega_{e}x_{e} = 5.96(71) cm^{-1}$, and $r_{e}$ = 1.50973(4) {\AA}.
Description
This work was supported by the U.S. Army Research Office, Grant DAAG29-77-G-0007.
Author Institution: Department of Physics, Duke University
Author Institution: Department of Physics, Duke University