RT info:eu-repo/semantics/doctoralThesis T1 Shedding light on the darkest galaxies: structure and substructures in sextans and other milky way dwarf spheroidals. A1 Cicuendez Salazar, Luis A2 Programa de Doctorado en Astrofísica K1 ASTRONOMIA Y ASTROFISICA K1 GALAXIAS K1 EVOLUCION ESTELAR Y DIAGRAMA HR K1 ASTRONOMIA OPTICA AB This thesis is focused on studying the structure and substructures in dwarf spheroidal galaxies (dSphs) satellites of the Milky Way (MW), mainly on the spatial distribution, but also on the internal kinematic and metallicity properties of their stellar component, from the analysis of large samples of individual stars. Due to the proximity of these small galaxies to a much larger system such as the MW, we also searched for possible tidal tails caused by their mutual interaction, which was one of the main objectives of this thesis; the presence of tidal tails would indicate departure from dynamical equilibrium, invalidating one of the main assumptions on which determinations of the dark matter content and distribution of these galaxies rely on. The dSphs studied in this thesis are Sextans, Ursa Minor (UMi) and the recently discovered Eridanus II (Eri II). Sextans was chosen because of its very low central surface brightness and much larger extent compared to other similarly luminous MW dSphs, which make it a good candidate for being tidally disturbed by the MW, but at the same time hard to study in detail, due to the difficulties of mapping the large angular extent of its stellar body and of separating its stars from the very numerous contaminants (e.g. foreground MW stars). Its study was the most extensive one. As such, it was split in two parts. In the first part we obtained in visitor mode (PI: B. McMonigal; Observer: L. Cicuéndez; 6 nights) very spatially extended CTIO/DECam g and r deep photometry (covering ~ 20 deg^2 and reaching out to ~ 2 magnitudes below the oldest main-sequence turn-off) of the galaxy and explored its structural properties, searching for possible tidal tails/debris as well. We obtained the structural parameters of both the overall stellar population and its different evolutionary phases by making use of a Bayesian Markov chain Monte Carlo (MCMC) method. By making some improvements to a literature matched filter analysis of the colour-magnitude diagram, we also decontaminated their corresponding surface density maps and looked for possible departures from axisymmetry. The outcome was that Sextans is significantly more concentrated and less extended than previous studies suggested, with no signs of tidal disturbance found down to a surface brightness of ~ 31.8 mag/arcsec^2 in V-band. In agreement with previous findings, the old and metal poor stellar components such as the Blue Horizontal Branch stars were found to be considerably more extended than the rest of evolutionary phases, while bright Blue Stragglers (BSs) are more concentrated than faint ones. Nonetheless, this different spatial distributions between bright and faint BSs is compatible with the general age and metallicity gradients found in the overall stellar population of the galaxy, and therefore BSs could have formed just by evolution of binaries and not necessarily by the disruption of a globular cluster, as suggested in the literature. In addition, we updated the membership probabilities of two literature spectroscopic catalogues by making use of an improved form of a literature "expectation maximization" technique, making them publicly available together with the photometric catalogue of point-sources used in the rest of the study.The second part of the study dealt with the subsequent discovery of clear observational signs of past accretion/merger events in Sextans. Using the same photometric catalogue and the high probable spectroscopic members from the first part of the study, we found that the spatial distribution of stars varies as a function of the colour/metallicity: while the blue (metal-poor) red giant branch and main-sequence turn-off stars have a rather round and regular distribution, the spatial distribution of the red ones (metal-rich) is much more elliptical and irregularly shaped, with the presence of a distinct "shell-like" overdensity in the northeast side. We also detected a "ring-like" feature on the line-of-sight (LOS) velocities, also visible when using indicators sensitive to the metallicity, which displays a considerably larger systemic velocity and lower mean metallicity than the rest of stars. All these features make Sextans, with a stellar mass of just ~ 5 x 10^5 solar masses, the smallest galaxy with clear observational signs of accretion to date. This fact is particularly important as it lowers the faint end of the galaxy mass function at which some predictions of the hierarchical theory of galaxy formation have been qualitatively verified. YR 2018 FD 2018 LK http://riull.ull.es/xmlui/handle/915/24553 UL http://riull.ull.es/xmlui/handle/915/24553 LA en DS Repositorio institucional de la Universidad de La Laguna RD 23-nov-2024