Browsing by Author "López, S."
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- ItemDeterminants of volumetric breast density in Chilean premenopausal women(2017) Uauy, Ricardo; Garmendia, M.; Pereira, A.; Neira, P.; López, S.; Malkov, S.; Shepherd, J.
- ItemFirst-principles study of electronic, vibrational, elastic, and magnetic properties of FeF2 as a function of pressure(2012) López, S.; Mejía López, José Félix
- ItemGalaxy clusters in the line of sight to background quasars. I. Survey design and incidence of MgII absorbers at cluster redshifts(2008) López, S.; Barrientos, Luis Felipe; Padilla, Nelson
- ItemMapping the spatial extent of H I-rich absorbers using Mg II absorption along gravitational arcs(2025) Berg, T. A. M.; Afruni, A.; Ledoux, C.; López, S.; Noterdaeme, P.; Tejos, N.; Hernández Guajardo, Joaquín Aléxis; Barrientos, Luis Felipe; Johnston, E. J.H I-rich absorbers seen within quasar spectra contain the bulk of neutral gas in the Universe. However, the spatial extent of these reservoirs are not extensively studied due to the pencil beam nature of quasar sightlines. Using two giant gravitational arc fields (at redshifts 1.17 and 2.06) as 2D background sources with known strong Mg II absorption observed with the Multi Unit Spectroscopic Explorer integral field spectrograph (IFS), we investigated whether spatially mapped Mg II absorption can predict the presence of strong H I systems, and determine both the physical extent and H I mass of the two absorbing systems. We created a simple model of an ensemble of gas clouds in order to simultaneously predict the H I column density and gas covering fraction of H I-rich absorbers based on observations of the Mg II rest-frame equivalent width in IFS spaxels. We first test the model on the lensing field with H I observations already available from the literature, finding that we can recover H I column densities consistent with the previous estimates (although with large uncertainties). We then use our framework to simultaneously predict the gas covering fraction, H I column density and total H I gas mass (MHI) for both fields. We find that both of the observed strong systems have a covering fraction of ≈ 70% and are likely damped Lyman α systems (DLAs) with MHI > 109 M⊙. Our model shows that the typical Mg II metrics used in the literature to identify the presence of DLAs are sensitive to the gas covering fraction. However, these Mg II metrics are still sensitive to strong H I, and can be still applied to absorbers towards gravitational arcs or other spatially extended background sources. Based on our results, we speculate that the two strong absorbers are likely representative of a neutral inner circumgalactic medium and are a significant reservoir of fuel for star formation within the host galaxies.
- ItemPhotometric classification of quasars from RCS-2 using Random Forest(2015) Carrasco, D.; Barrientos, Luis Felipe; Pichara Baksai, Karim Elías; Anguita, T.; Murphy, D. N. A.; Gilbank, D. G.; Gladders, M. D.; Yee, H. K. C.; Hsieh, B. C.; López, S.
- ItemStructure and electronic properties of iron oxide clusters: A first-principles study(2009) López, S.; Mejía López, José Félix
- ItemTelltale signs of metal recycling in the circumgalactic medium of a z 0.77 galaxy(2021) Tejos, N.; López, S.; Ledoux, C.; Fernández-Figueroa, A.; Rivas, N.; Sharon, K.; Johnston, E. J.; Florian, M. K.; D'Ago, G.; Katsianis, A.; Barrientos, F.; Berg, T.; Corro-Guerra, F.; Hamel, M.; Moya-Sierralta, C.; Poudel, S.; Rigby, J. R.; Solimano, M.We present gravitational-arc tomography of the cool-warm enriched circumgalactic medium (CGM) of an isolated galaxy ('G1') at z approximate to 0.77. Combining VLT/MUSE adaptive-optics and Magellan/MagE echelle spectroscopy, we obtain partially resolved kinematics of Mg II in absorption and [O II] in emission. The unique arc configuration allows us to probe 42 spatially independent arc positions transverse to G1, plus four positions in front of it. The transverse positions cover G1's minor and major axes at impact parameters of approximate to 10-30 and approximate to 60kpc, respectively. We observe a direct kinematic connection between the cool-warm enriched CGM (traced by Mg II) and the interstellar medium (traced by [O II]). This provides strong evidence for the existence of an extended disc that co-rotates with the galaxy out to tens of kiloparsecs. The Mg II velocity dispersion (sigma approximate to 30-100 km s(-1), depending on position) is of the same order as the modelled galaxy rotational velocity (v(rot) approximate to 80 km s(-1)), providing evidence for the presence of a turbulent and pressure-supported CGM component. We regard the absorption to be modulated by a galactic-scale outflow, as it offers a natural scenario for the observed line-of-sight dispersion and asymmetric profiles observed against both the arcs and the galaxy. An extended enriched co-rotating disc together with the signatures of a galactic outflow, are telltale signs of metal recycling in the z similar to 1 CGM.
- ItemThe FGF2-induced tanycyte proliferation involves a connexin 43 hemichannel/purinergic-dependent pathway(2021) Recabal, A.; Fernández, P.; López, S.; Barahona, M. J.; Ordenes, P.; Palma, A.; Elizondo-Vega, R.; Farkas, C.; Uribe, A.; Sáez, Juan Carlos; Caprile, T.; García-Robles, M. A.