From building blocks to large galaxies: Towards understanding the formation of the Milky Way - Anna Frebel, MIT- Special Seminar
Abstract: The early chemical evolution of the Galaxy and the Universe is vital to our understanding of a host of astrophysical phenomena. Since the oldest, most metal-poor stars are relics from the high-redshift universe; they probe the chemical and dynamical conditions of a time when large galaxies first began to assemble. Recent works have shown that the ultra-faint dwarf galaxies (with L<10^5Lsun) contain a relatively large fraction of extremely metal-poor stars and are devoid of solar-metallicity stars. This reflects a rather short or truncated star formation history similar to what one would expect to occur in a first/early galaxy. The chemical signatures of these dwarfs furthermore support the concept that small systems analogous to the surviving ultra-faint galaxies were the building blocks of the Milky Way's low-metallicity halo. This opens a new window for studying galaxy formation with the means of stellar chemical analyses.
I will also include some information on our newly discovered [Fe/H]<-7.0 star.
Location: Joseph Henry Room
Date/Time: 09/27/13 at 12:00 pm - 09/27/13 at 1:30 pm
Category: Special Seminar