Abstract
High-resolution Fourier transform infrared spectra of SiO were recorded from two sources, the umbral region of a sunspot and a high-temperature laboratory cell. Rovibrational transitions in the sunspot absorption spectrum were measured in consecutive vibrational bands from (1, 0) to (13, 12) with J values as high as 141 for (SiO)-Si-28-O-16 (1258 lines) and (1, 0) to (6, 5) for (SiO)-Si-29-O-16 and (SiO)-Si-30-O-16 (455 lines). In the lower temperature laboratory emission spectrum only 387 rotational lines in the (1, 0) to (5, 4) bands were measured exclusively for (SiO)-Si-28-O-16. The laboratory spectrum served primarily to calibrate the lines in the sunspot spectrum to absolute rest frequencies. An improved set of Dunham constants for the (1) Sigma(+) ground state was obtained from a global fit of a combined data set consisting of our IR data and all the previously reported microwave and millimeter-wave data. In addition, an internuclear potential for the (1) Sigma(+) ground state, in the form of a parameterized modified-Morse function, was also obtained by fitting the data directly to the eigenvalues of the radial Schrodinger equation.
Original language | English |
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Pages (from-to) | 237-254 |
Number of pages | 18 |
Journal | ASTROPHYSICAL JOURNAL SUPPLEMENT SERIES |
Volume | 101 |
Issue number | 1 |
Publication status | Published - Nov 1995 |
Keywords
- LINE, IDENTIFICATION
- MOLECULAR DATA
- ELECTRIC-DIPOLE MOMENT
- SILICON MONOXIDE
- DUNHAM COEFFICIENTS
- ISOTOPE DEPENDENCE
- MOLECULES
- STATES
- MASER
- PARAMETERS
- CONSTANTS