The solar system boron abundance
Abstract
The concentrations of B in seven carbonaceous chondritic meteorites have been determined by the use of two different analytical techniques. The data correspond to a B/H ratio of about 10^(-9) compared to the value of 10^(-8) previously proposed by Cameron, Colgate, and Grossman. However, the meteoritic abundance remains at least a factor of 2-10 higher than various estimates of the solar photosphere abundance. We conclude that both meteoritic and photospheric B and Be abundances must be considered in comparisons with nucleosynthesis calculations. Using our revised B abundances and assuming ^7Li was synthesized in the big bang, we find that the residual ^6Li/1°B, ^9Be/^(10)B, and ^(11)B/^(10)B abundance ratios are well matched by the production rates for bombardment of a CNO mixture of solar proportions by protons and a-particles with a kinetic energy per nucleon spectrum of the form E^(-1.8).
Additional Information
© 1977 American Astronomical Society. Received 1976 October 7; revised 1977 January 19. Supported in part by the National Science Foundation [EAR73-00245A02, PHY76-02724]. We thank C. Moore, R. Clarke (U.S. National Museum), J. Lovering, E. Olsen (Chicago Museum of Natural History), J. Wasson, and G. J. Wasserburg for the meteorite samples.Attached Files
Published - 1977ApJ___214L__39W.pdf
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- Eprint ID
- 60026
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- CaltechAUTHORS:20150902-104155655
- NSF
- EAR73-00245A02
- NSF
- PHY76-02724
- Created
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2015-09-02Created from EPrint's datestamp field
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2020-03-09Created from EPrint's last_modified field
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- Division of Geological and Planetary Sciences (GPS)