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Wednesday, February 17, 10:00 a.m.
4054 McPherson Laboratory
However, these stars are relatively rare and follow-up observations are best done on bright stars. The RAdial Velocity Experiment sample of nearly 300,000 spectra of I < 12 mag stars has proved an excellent source of VMP stars. We have analyzed the RAVE spectra of 543 candidate VMP stars, the large majority of which have not been identified as such to date. Of these candidates, we have found 447 stars with [Fe/H] < -2, 16 stars with [Fe/H] < -3, and 1 star with [Fe/H] < -4.
In addition, we have obtained 108 high-resolution, high-S/N spectra of these stars and have analyzed them for their detailed elemental abundances, including n-capture species. We have found new C-rich stars, s-process enhanced stars, r-process enhanced stars, etc.
An exciting result has been the discovery of 9 new Li-rich VMP giants. These bright giants (L/Lsun ~ 1000) have Li abundances up to 100 times the primordial value, and over 1000 times the Li observed in other giants of similar luminousity. Solar-metallicity Li-rich giants have been well-studied, and are known as as a phase of intermediate mass stellar evolution. Our work shows, for the first time, that these low-mass VMP giants go through a similar phase where the primary source of luminousity is the burning of Li. This result has implications on the internal mixing processes in stars, and, more importantly, whether there is an additional source of Li production (besides Big Bang nucleosynthesis) in the early universe.
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Last Modified on Tuesday 2010 February 16 at 09:16:59 EST
