Spectroscopic Constants, Abundances, and Opacities of the TiH Molecule

Using previous measurements and quantum chemical calculations to derive the molecular properties of the TiH molecule, we obtain new values for its ro-vibrational constants, thermochemical data, spectral line lists, line strengths, and absorption opacities. Furthermore, we calculate the abundance of...

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Bibliographic Details
Published in:arXiv.org 2005-02
Main Authors: Burrows, A, Dulick, M, Bauschlicher, C W, Jr, Bernath, P F, Ram, R S, Sharp, C M, Milsom, J A
Format: Article
Language:English
Subjects:
Abundance
Astrochemistry
Line spectra
Mathematical analysis
Metallicity
Organic chemistry
Quantum chemistry
Red dwarf stars
Stellar atmospheres
Titanium
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Summary:Using previous measurements and quantum chemical calculations to derive the molecular properties of the TiH molecule, we obtain new values for its ro-vibrational constants, thermochemical data, spectral line lists, line strengths, and absorption opacities. Furthermore, we calculate the abundance of TiH in M and L dwarf atmospheres and conclude that it is much higher than previously thought. We find that the TiH/TiO ratio increases strongly with decreasing metallicity, and at high temperatures can exceed unity. We suggest that, particularly for subdwarf L and M dwarfs, spectral features of TiH near \(\sim\)0.52 \mic, 0.94 \mic, and in the \(H\) band may be more easily measureable than heretofore thought. The recent possible identification in the L subdwarf 2MASS J0532 of the 0.94 \mic feature of TiH is in keeping with this expectation. We speculate that looking for TiH in other dwarfs and subdwarfs will shed light on the distinctive titanium chemistry of the atmospheres of substellar-mass objects and the dimmest stars.
ISSN:2331-8422
DOI:10.48550/arxiv.0411680