%0 Generic
%A Koposov, Sergey
%D 2009
%F heidok:10163
%K dwarf galaxies , globular clusters , tidal streams , milky way , galaxy formation
%R 10.11588/heidok.00010163
%T Understanding the Milky Way Halo through Large Surveys
%U https://archiv.ub.uni-heidelberg.de/volltextserver/10163/
%X This thesis presents an extensive study of stellar substructure in the outskirts of the Milky Way(MW), combining data mining of SDSS with theoretical modeling. Such substructure, either bound star clusters and satellite galaxies, or tidally disrupted objects forming stellar streams are powerful diagnostics of the Milky Way's dynamics and formation history. I have developed an algorithmic technique of searching for stellar overdensities in the MW halo, based on SDSS catalogs. This led to the discovery of unusual ultra-faint $sim (1000 L_odot$) globular clusters with very compact sizes and relaxation times $ll t_{Hubble}$. The detailed analysis of a known stellar stream (GD-1), allowed me to make the first 6-D phase space map for such an object along 60 degrees on the sky. By modeling the stream's orbit I could place strong constraints on the Galactic potential, e.g $V_{circ}(R_0)=224pm 13$~km/s. The application of the algorithmic search for stellar overdensities to the SDSS dataset and to mock datasets allowed me to quantify SDSS's severe radial incompleteness in its search for ultra-faint  dwarf galaxies and to determine the luminosity function of MW satellites down to luminosities of $M_Vapprox-3$. I used the semi-analytical model in order to compare the CDM model predictions for the MW satellite population with the observations; this comparison has shown that the recently increased census of MW satellites, better understanding of the radial incompleteness and the suppression of star formation after the reionization can fully solve the Missing satellite problem''.