TY - GEN
T1 - The formation of the Galactic bulge of the Milky Way
AU - Ness, M.
AU - Freeman, K.
PY - 2012
Y1 - 2012
N2 - We aim to determine if the bulge formed via mergers as predicted by Cold Dark Matter (CDM) theory, or from disk instabilities, as suggested by its boxy shape, or both processes. We are observing about 28,000 bulge stars in fields that span longitudes of - 31 to + 26 and latitudes of - 5 to - 10, targeting mostly red clump giants and we are measuring stellar velocities and chemical abundances. We have almost concluded our observations and have analysed data of 23,000 stars. We find a cylindrical rotation profile for the bulge which blends smoothly out into the disk and from the [Fe/H] results we find the bulge to be comprised of separate components, with an underlying slowly rotating metal poor subsample which we believe to be the inner halo stars and metal weak thick disk. We find only a small [Fe/H] gradient with latitude in the bulge, of - 0.07dex/kpc. This weak gradient does not necessarily support a merger origin for our bulge and the composite nature of the bulge is consistent with formation out of the thin disk as per instability formation models.
AB - We aim to determine if the bulge formed via mergers as predicted by Cold Dark Matter (CDM) theory, or from disk instabilities, as suggested by its boxy shape, or both processes. We are observing about 28,000 bulge stars in fields that span longitudes of - 31 to + 26 and latitudes of - 5 to - 10, targeting mostly red clump giants and we are measuring stellar velocities and chemical abundances. We have almost concluded our observations and have analysed data of 23,000 stars. We find a cylindrical rotation profile for the bulge which blends smoothly out into the disk and from the [Fe/H] results we find the bulge to be comprised of separate components, with an underlying slowly rotating metal poor subsample which we believe to be the inner halo stars and metal weak thick disk. We find only a small [Fe/H] gradient with latitude in the bulge, of - 0.07dex/kpc. This weak gradient does not necessarily support a merger origin for our bulge and the composite nature of the bulge is consistent with formation out of the thin disk as per instability formation models.
UR - http://www.scopus.com/inward/record.url?scp=84873545290&partnerID=8YFLogxK
U2 - 10.1051/epjconf/20121906003
DO - 10.1051/epjconf/20121906003
M3 - Conference contribution
SN - 9782759807185
T3 - EPJ Web of Conferences
BT - Assembling the Puzzle of the Milky Way
T2 - International Conference on Assembling the Puzzle of the Milky Way
Y2 - 17 April 2011 through 22 April 2011
ER -