R. S. Ram scite author profile

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.Comment: 37 pages, including 4 figures and 13 tables, accepted to the Astrophysical Journa

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Fourier transform spectroscopy of the A3Π-X3Σ− transition of NH

Brazier

Ram

Bernath

1986

Journal of Molecular Spectroscopy

212

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New CrH Opacities for the Study of L and Brown Dwarf Atmospheres

Burrows

Ram

Bernath

et al. 2002

ApJ

111

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In this paper, we calculate new line lists and opacities for the 12 bands of the A$^6\Sigma^{+}$ -- X$^6\Sigma^{+}$ transitions of the CrH molecule. Identified in objects of the new L dwarf spectroscopic class (many of which are brown dwarfs), as well as in sunspots, the CrH molecule plays an important role in the diagnosis of low-temperature atmospheres. As a tentative first application of these opacities, we employ our new theoretical CrH data in an atmospheres code to obtain a CrH/H$_2$ number ratio for the skin of the L5 dwarf 2MASSI J1507038-151648 of $\sim 2-4\times 10^{-9}$, in rough agreement with chemical equilibrium expectations. Since in previous compilations the oscillator strength was off by more than an order of magnitude, this agreement represents a modest advance. However, in order to determine the CrH abundance in an L dwarf atmosphere, silicate clouds need to be incorporated into the model, and cloud modeling is still in a primitive stage of development. Nevertheless, one important step in L dwarf modeling is a reliable CrH opacity and this is what we have here attempted to provide.Comment: Includes 3 color figures (in .gif format). Accepted to the Astrophysical Journa

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Fourier transform emission spectroscopy of ScN

Ram

Bernath

1992

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R. S. Ram

Line Intensities and Molecular Opacities of the FeHF⁴Δ_i–X⁴Δ_iTransition

Spectroscopic Constants, Abundances, and Opacities of the TiH Molecule

Fourier transform spectroscopy of the A3Π-X3Σ− transition of NH

New CrH Opacities for the Study of L and Brown Dwarf Atmospheres

Fourier transform emission spectroscopy of ScN

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R. S. Ram

Line Intensities and Molecular Opacities of the FeHF4Δi–X4ΔiTransition

Spectroscopic Constants, Abundances, and Opacities of the TiH Molecule

Fourier transform spectroscopy of the A3Π-X3Σ− transition of NH

New CrH Opacities for the Study of L and Brown Dwarf Atmospheres

Fourier transform emission spectroscopy of ScN

Contact Info

Product

Resources

About

Line Intensities and Molecular Opacities of the FeHF⁴Δ_i–X⁴Δ_iTransition