The Abundances and Age of the Galactic Halo Star BD +17o3248

Details The Abundances and Age of the Galactic Halo Star BD +17o3248 The Abundances and Age of the Galactic Halo Star BD +17o3248

Dec 2001

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001aas...19913706c&link_type=abstract

American Astronomical Society, 199th AAS Meeting, #137.06; Bulletin of the American Astronomical Society, Vol. 33, p.1512

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We have used the Hubble Space Telescope (HST), the Keck telescope and the H.J. Smith telescope to make new abundance detections of neutron-capture elements in the metal-poor halo star BD +17o3248. We have detected, for the first time in this star, the 3 rd r-process peak elements osmium, iridium and platinum, elements whose abundances can only be reliably determined using HST. We also report the first confirmed detection of gold in very metal-poor halo stars. Our observations illustrate a pattern seen in other halo stars with the abundances of the heavier neutron-capture elements, including the 3 rd r-process peak elements, consistent with a scaled solar system r-process distribution. The abundances of the lighter neutron-capture elements, including germanium and silver, fall below that same scaled solar r-process curve, a result similar to that seen in the ultra-metal-poor star CS 22892--052, and suggests different synthesis conditions for the lighter and heavier neutron-capture elements. Additionally, we observe a very weak feature at 3860.6 Å, which is likely to be the strong U II line at that wavelength. If it is indeed the U II line, this would mark BD +17o3248 as the second halo star with observable uranium. Our combined observations cover the widest range in proton number (from germanium to uranium) thus far of neutron-capture elements in metal-poor Galactic halo stars. Employing the thorium and uranium abundances in comparison with each other and with several stable elements, we determine an average cosmochronological age for BD +17o3248 and compare this value with that found for other metal-poor halo stars. This research was supported by NASA STScI grant GO-08342, the NSF, DOE and the German BMBF.

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