The chemical composition and age of the metal-poor halo star BD+17°3248

We have combined new high-resolution spectra obtained with the Hubble Space Telescope (HST) and ground-based facilities to make a comprehensive new abundance analysis of the metal-poor, halo star BD + 17degrees3248. We have detected the third r-process peak elements osmium, platinum, and ( for the first time in a metal-poor star) gold, elements whose abundances can only be reliably determined using HST. Our observations illustrate a pattern seen in other similar halo stars with the abundances of the heavier neutron capture elements, including the third 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. A single site with two regimes or sets of conditions, or perhaps two different sites for the lighter and heavier neutron capture elements, might explain the abundance pattern seen in this star. In addition, we have derived a reliable abundance for the radioactive element thorium. We tentatively identify U II at 3859 Angstrom in the spectrum of BD + 17 3248, which makes this the second detection of uranium in a very metal-poor halo star. 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 + 17degrees3248 of 13 +/- 8 4 Gyr, consistent with that found for other similar metal-poor halo stars.