Ortwin Gerhard
Published 2014-08-01Version 1
The Galactic bulge is now considered to be the inner three-dimensional part of the Milky Way's bar. It has a peanut shape and is characterized by cylindrical rotation. In N-body simulations, box/peanut bulges arise from disks through bar and buckling instabilities. Models of this kind explain much of the structure and kinematics of the Galactic bulge and, in principle, also its vertical metallicity gradient. Cosmological disk galaxy formation models with high resolution and improved feedback models are now able to generate late-type disk galaxies with disk-like or barred bulges. These bulges often contain an early collapse stellar population and a population driven by later disk instabilities. Due to the inside-out disk formation, these bulges can be predominantly old, similar to the Milky Way bulge.
Comments: Invited talk, 5pp. To be published in "Resolved Stellar Populations in the Bulge and the Magellanic Clouds", a conference to celebrate the 50th anniversary of CTIO, May 2013, eds. Points, S. and Kunder, A. (ASP Conference Series, Astronomical Society of the Pacific)
CNO abundances in the Galactic bulge
The disc origin of the Milky Way bulge
Theoretical Models of the Galactic Bulge
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