The Formation of Complex Galactic Luminous Elements through Star Cluster Evolution.
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Date
2012
Authors
Journal Title
Journal ISSN
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Publisher
Universidad de Concepción.
Abstract
This thesis mainly studies numerically the formation of dwarf spheroidal
galaxies (dSph) of the Milky Way. We perform numerical experiments to
show that the evolution of star clusters within dark matter haloes can explain
the formation of the luminous components of the classical dSph galaxies. We
propose a scenario in which star clusters form in the dark matter halo of a
dSph. These clusters su er from low star formation e ciency and dissolve
while orbiting inside de halo, and/or merge with each other. Thereby they
built the faint luminous components that we observe in dSph galaxies.
We also study the formation process of the thick disc in the Milky Way.
While the chemical composition and the kinematical properties of the thick
disc are well known, the formation scenario is not yet well understood.
Here we provide numerical simulations of star clusters su ering from gasexpulsion.
These star clusters are orbiting in a Milky Way potential, slowly
dissolving and spreading their stars. We show that they could be responsible
for the build up of the thick disc.
We investigate a scenario for the formation of the recently observed,
extended globular cluster Scl-dE1 GC1. This cluster has a large core radius
and it was speculated whether this object could reside in its own dark matter
halo and/or might have formed through the merging of star clusters. We
perform N-body simulations and show that there are several formation paths
for this object involving mergers of star clusters in low-mass DM haloes,
which result in a similar object that contains very little or no DM inside of
the stellar distribution.
Description
Tesis para ser presentada a la Dirección de Postgrado de la Universidad de Concepción.
Keywords
Estrellas, Física Cósmica.