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Isotopic abundances of Hg in mercury stars inferred from the Hg II line at 3984 A (1976)

Preston, G. W. ; Swings, J. P. ; White, R. E. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-16

Description: Wavelengths of the Hg II absorption feature at 3984 A in 30 Hg stars are distributed uniformly from the value for the terrestrial mix to a value that corresponds to nearly pure Hg-204. The wavelengths are correlated loosely with effective temperatures inferred from Q(UBV). Relative isotopic abundances derived from partially resolved profiles of the 3984-A line in iota CrB, chi Lup, and HR 4072 suggest that mass-dependent fractionation has occurred in all three stars. It is supposed that such fractionation occurs in all Hg stars, and a scheme whereby isotopic compositions can be inferred from a comparison of stellar wavelengths and equivalent widths with those calculated for a family of fractionated isotopic mixes. Theoretical profiles calculated for the derived isotopic composition agree well with high-resolution interferometric profiles obtained for three of the stars.

Keywords: ASTROPHYSICS

Type: Astrophysical Journal; 204; Feb. 15

Format: text

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CO near the Pleiades: Encounter of a star cluster with a small molecular cloud (1986)

Bally, J. ; White, R. E.

In: CASI

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Publication Date: 2016-06-07

Description: Although there is a large amount of interstellar matter near the Pleiades star cluster, the observed dust and gas is not a remnant of the placental molecular cloud from which the star cluster was formed. Carbon monoxide (CO) associated with the visible reflection nebulae was discovered by Cohen (1975). Its radial velocity differs from that of the cluster by many times the cluster escape velocity, which implies that the cloud-cluster association is the result of a chance encounter. This circumstance and the proximity of the Pleiades to the sun creates an unique opportunity for study of interstellar processes at high spatial resolution. To study the molecular component of the gas, a 1.7 square degree field was mapped with the AT&T Bell Laboratories 7-meter antenna (1.7' beam) on a 1' grid in the J=1.0 C(12)O line, obtaining over 6,000 spectra with 50 kHz resolution. The cloud core was mapped in the J=1-0 line of C(13)O. Further observations include an unsuccessful search for CS (J=2-1) at AT&T BL, and some C(12)O J=2-1 spectra obtained at the Millimeter Wave Observatory of the University of Texas.

Keywords: ASTROPHYSICS

Type: NASA. Ames Research Center Summer School on Interstellar Processes: Abstracts of Contributed Papers; p 51-52

Format: application/pdf

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3

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A survey of interstellar neutral potassium. I - Abundances and physical conditions in clouds toward 188 early-type stars (1982)

White, R. E. ; Chaffee, F. H., Jr.

In: Other Sources

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Publication Date: 2011-08-18

Description: Observations of interstellar absorption in the resonance doublet 7664, 7698 A of neutral potassium toward 188 early-type stars at a spectral resolution of 8 km/s are reported. The 7664 A line is successfully separated from nearly coincident telluric O2 absorption for all but a few of the 165 stars for which K I absorption is detected, making possible an abundance analysis by the doublet ratio method. The relationships between the potassium abundances and other atomic abundances, the abundance of molecular hydrogen, and interstellar reddening are investigated.

Keywords: ASTROPHYSICS

Type: Astrophysical Journal Supplement Series; 50; Oct. 198

Format: text

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Microturbulence, systematic motions, and line formation in molecular clouds (1977)

White, R. E.

In: Other Sources

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Publication Date: 2019-06-27

Description: Microturbulence and systematic motions are viewed as simplifying assumptions made to facilitate treatment of line formation in molecular clouds, and line intensities calculated in the two approximations are compared to estimate how uncertainties about the actual line-broadening mechanism affect the interpretation of molecular emission lines. For lines formed by two-level molecules in an isothermal homogeneous cloud, the alternative assumptions lead to peak and integrated line intensities which agree within the differences (up to a factor of 3) associated with the ignorance of cloud geometry. New multilevel calculations for CO in the same cloud model bear out the generality of this result. It follows that, within the geometrical uncertainties, the Sobolev (1960) approximation may be used confidently in the numerous applications for which this simple cloud model suffices.

Keywords: ASTROPHYSICS

Type: Astrophysical Journal; vol. 211

Format: text

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