Año de inicio
2015
Unidad organizativa
Institución organizadora
General
Descripción
Entre las cuestiones fundamentales en Astronomía y Astrofísica están la formación y evolución de galaxias. Las escalas de tiempo y tamaño son tan astronómicas que su observación en galaxias individuales es imposible. Solo con el uso de simulaciones numéricas es posible entender la formación de estructuras cósmicas dentro del actual marco cosmológico.
Los principales procesos físicos que rigen la formación y evolución de galaxias son gravedad, hidrodinámica, gas cooling, formación estelar, evolución estelar, y SN y BH feedback, todos ellos no lineales y por ello difíciles de describir con modelos puramente analíticos. Otros modelos, los semi-analíticos, se basan en simulaciones de únicamente materia oscura y están, por tanto, sesgados al igual que éstas. Por todo esto, las simulaciones cosmológicas hidrodinámicas son la mejor herramienta para realizar los “experimentos controlados” de formación y evolución de galaxias.
Tras tres décadas de mejoras en las simulaciones numéricas, solo ahora los trabajos teóricos pueden reproducir simultáneamente las propiedades observadas de las galaxias y del medio interestelar (e.g. EAGLE, Schaye et al. 2015, MNRAS, 446, 521; ILLUSTRIS, Vogelsberger et al., 2014, Nature, 509, 177); en particular, las funciones de luminosidad y de masa de las galaxias, las relaciones entre tamaño y masa, entre metalicidad y masa, entre otras muchas propiedades están reproducidas en un amplio rango de masas de galaxias.
El grupo de astrofísica numérica trabaja en una variedad de temas científicos relacionados con la evolución de las galaxias y la estructura a gran escala del universo. La experiencia abarca desde la estructura interna de las galaxias enanas y de bajo brillo superficial, la Vía Láctea y sus galaxias satélite, el estudio de las galaxias en grupos y agrupaciones, hasta las grandes simulaciones cosmológicas de la estructura del universo. El grupo colabora con la mayoría de los grupos de investigación de IAC que trabajan en astrofísica extragaláctica y cosmología.
Miembros
Investigador principal
Claudio
Dalla Vecchia
Co investigador principal
Christopher
Brook
Personal del proyecto
Arianna
Di Cintio
Andrea
Negri
Isaac
Alonso Asensio
Salvador
Cardona Barrero
Jorge Manuel
Sarrato Alós
Elena
Arjona Gálvez
Pablo Daniel
Contreras Guerra
Colaboradores
Jorge Francisco
Sánchez Almeida
Ignacio
Trujillo Cabrera
Ignacio Alfonso
Ferreras Páez
Carmen
Gallart Gallart
Giuseppina
Battaglia
FRANCISCO SHU
KITAURA JOYANES
Prof.
Sadegh Khochfar
Prof.
Joop Schaye
Dr.
Yannick Bahé
Prof.
Gustavo Yepes
Prof.
Daisuke Kawata
Prof.
Andrea Macciò
Prof.
Alexander Knebe
Dr.
Hidenobu Yashima
Dr.
Robert Grand
Actividad científica
Publicaciones relacionadas
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NIHAO - XIV. Reproducing the observed diversity of dwarf galaxy rotation curve shapes in ΛCDMThe significant diversity of rotation curve (RC) shapes in dwarf galaxies has recently emerged as a challenge to Λ cold dark matter (ΛCDM): in dark matter (DM) only simulations, DM haloes have a universal cuspy density profile that results in self-similar RC shapes. We compare RC shapes of simulated galaxies from the NIHAO (Numerical InvestigationSantos-Santos, Isabel M. et al.
Fecha de publicación:
22018 -
The Cluster-EAGLE project: velocity bias and the velocity dispersion-mass relation of cluster galaxiesWe use the Cluster-EAGLE simulations to explore the velocity bias introduced when using galaxies, rather than dark matter particles, to estimate the velocity dispersion of a galaxy cluster, a property known to be tightly correlated with cluster mass. The simulations consist of 30 clusters spanning a mass range 14.0 ≤ log10(M200 c/M⊙) ≤ 15.4, withArmitage, T. J. et al.
Fecha de publicación:
32018 -
Galactic wind X-ray heating of the intergalactic medium during the Epoch of ReionizationThe diffuse soft X-ray emissivity from galactic winds is computed during the Epoch of Reionization (EoR). We consider two analytic models, a pressure-driven wind and a superbubble model, and a 3D cosmological simulation including gas dynamics from the First Billion Years (FiBY) project. The analytic models are normalized to match the diffuse X-rayMeiksin, A. et al.
Fecha de publicación:
112017 -
Growth of First Galaxies: Impacts of Star Formation and Stellar FeedbackRecent observations have detected galaxies at high-redshift z∼ 6{--}11, and revealed the diversity of their physical properties, from normal star-forming galaxies to starburst galaxies. To understand the properties of these observed galaxies, it is crucial to understand the star formation (SF) history of high-redshift galaxies under the influenceYajima, H. et al.
Fecha de publicación:
92017 -
The Radial Distribution of Mono-metallicity Populations in the Galactic Disk as Evidence for Two-phase Disk FormationRecent determinations of the radial distributions of mono-metallicity populations (MMPs, i.e., stars in narrow bins in [Fe/H] within wider [α/Fe] ranges) by the SDSS-III/APOGEE DR12 survey cast doubts on the classical thin- and thick-disk dichotomy. The analysis of these observations led to the non-[α /Fe] enhanced populations splitting into MMPsDomínguez-Tenreiro, R. et al.
Fecha de publicación:
92017 -
The First Billion Years project: constraining the dust attenuation law of star-forming galaxies at z ≃ 5We present the results of a study investigating the dust attenuation law at z ≃ 5, based on synthetic spectral energy distributions (SEDs) calculated for a sample of N = 498 galaxies drawn from the First Billion Years (FiBY) simulation project. The simulated galaxies at z ≃ 5, which have M1500 ≤ -18.0 and 7.5 ≤ log(M/M}_{⊙}) ≤ 10.2, display a massCullen, F. et al.
Fecha de publicación:
92017 -
The Hydrangea simulations: galaxy formation in and around massive clustersWe introduce the Hydrangea simulations, a suite of 24 cosmological hydrodynamic zoom-in simulations of massive galaxy clusters (M200c = 1014-1015.4 M⊙) with baryon particle masses of ˜106 M⊙. Designed to study the impact of the cluster environment on galaxy formation, they are a key part of the `Cluster-EAGLE' project. They use a galaxy formationBahé, Y. M. et al.
Fecha de publicación:
102017 -
The Cluster-EAGLE project: global properties of simulated clusters with resolved galaxiesWe introduce the Cluster-EAGLE (c-eagle) simulation project, a set of cosmological hydrodynamical zoom simulations of the formation of 30 galaxy clusters in the mass range of 1014 M200/M⊙ 1015.4 that incorporates the Hydrangea sample of Bahé et al. (2017). The simulations adopt the state-of-the-art eagle galaxy formation model, with a gasBarnes, D. J. et al.
Fecha de publicación:
102017 -
Diversity of dwarf galaxy IR-submm emission patterns: CLUES from hydrodynamical simulationsContext. The spectral energy distributions (SEDs) of low-mass low-metallicity (dwarf) galaxies are a challenging piece of the puzzle of galaxy formation in the near Universe. These SEDs show some particular features in the submillimeter to far-infrared (FIR) wavelength range compared to normal larger galaxies that cannot be explained by the currentSantos-Santos, Isabel M. E. et al.
Fecha de publicación:
62017 -
Barred galaxies in the EAGLE cosmological hydrodynamical simulationWe examine the properties of barred disc galaxies in a ΛCDM cosmological hydrodynamical simulation from the EAGLE project. Our study follows the formation of 269 discs identified at z = 0 in the stellar mass range 10.6 log M*/M⊙ 11. These discs show a wide range of bar strengths, from unbarred discs (≈60 per cent) to weak bars (≈20 per cent) andSchaye, Joop et al.
Fecha de publicación:
72017 -
Sloan Digital Sky Survey IV: Mapping the Milky Way, Nearby Galaxies, and the Distant UniverseWe describe the Sloan Digital Sky Survey IV (SDSS-IV), a project encompassing three major spectroscopic programs. The Apache Point Observatory Galactic Evolution Experiment 2 (APOGEE-2) is observing hundreds of thousands of Milky Way stars at high resolution and high signal-to-noise ratios in the near-infrared. The Mapping Nearby Galaxies at ApacheMao, Shude et al.
Fecha de publicación:
72017 -
Deep spectroscopy in nearby galaxy clusters - III. Orbital structure of galaxies in Abell 85Galaxies in clusters are strongly affected by their environment. They evolve according to several physical mechanisms that are active in clusters. Their efficiency can strongly depend on the orbital configuration of the galaxies. Our aim is to analyse the orbits of the galaxies in the cluster Abell 85, based on the study of the galaxy velocityAguerri, J. A. L. et al.
Fecha de publicación:
62017 -
The clustering of galaxies in the completed SDSS-III Baryon Oscillation Spectroscopic Survey: Cosmological implications of the Fourier space wedges of the final sampleWe extract cosmological information from the anisotropic power-spectrum measurements from the recently completed Baryon Oscillation Spectroscopic Survey (BOSS), extending the concept of clustering wedges to Fourier space. Making use of new fast-Fourier-transform-based estimators, we measure the power-spectrum clustering wedges of the BOSS sample byGrieb, Jan Niklas et al.
Fecha de publicación:
52017 -
Testing the conditional mass function of dark matter haloes against numerical N-body simulationsWe compare the predicted conditional mass function (CMF) of dark matter haloes from two theoretical prescriptions against numerical N-body simulations, both in overdense and underdense regions and at different Eulerian scales ranging from 5 to 30 h-1 Mpc. In particular, we consider in detail a locally implemented rescaling of the unconditional massTramonte, D. et al.
Fecha de publicación:
52017 -
NIHAO - XI. Formation of ultra-diffuse galaxies by outflowsWe address the origin of ultra-diffuse galaxies (UDGs), which have stellar masses typical of dwarf galaxies but effective radii of Milky Way-sized objects. Their formation mechanism, and whether they are failed L⋆ galaxies or diffuse dwarfs, are challenging issues. Using zoom-in cosmological simulations from the Numerical Investigation of a HundredDi Cintio, A. et al.
Fecha de publicación:
32017 -
The Spectral Evolution of the First Galaxies. III. Simulated James Webb Space Telescope Spectra of Reionization-epoch Galaxies with Lyman-continuum LeakageUsing four different suites of cosmological simulations, we generate synthetic spectra for galaxies with different Lyman-continuum escape fractions (f esc) at redshifts z≈ 7–9, in the rest-frame wavelength range relevant for the James Webb Space Telescope (JWST) NIRSpec instrument. By investigating the effects of realistic star formation historiesZackrisson, E. et al.
Fecha de publicación:
22017 -
On the Dearth of Ultra-faint Extremely Metal-poor GalaxiesLocal extremely metal-poor galaxies (XMPs) are of particular astrophysical interest since they allow us to look into physical processes characteristic of the early universe, from the assembly of galaxy disks to the formation of stars in conditions of low metallicity. Given the luminosity–metallicity relationship, all galaxies fainter than M r ≃ ‑13Sánchez Almeida, J. et al.
Fecha de publicación:
22017 -
The Aurora radiation-hydrodynamical simulations of reionization: calibration and first resultsWe introduce a new suite of radiation-hydrodynamical simulations of galaxy formation and reionization called Aurora. The Aurora simulations make use of a spatially adaptive radiative transfer technique that lets us accurately capture the small-scale structure in the gas at the resolution of the hydrodynamics, in cosmological volumes. In addition toPawlik, A. H. et al.
Fecha de publicación:
42017 -
A numerical study of interactions and stellar barsFor several decades, it has been known that stellar bars in disc galaxies can be triggered by interactions, or by internal processes such as dynamical instabilities. In this work, we explore the differences between these two mechanisms using numerical simulations. We perform two groups of simulations based on isolated galaxies, one group in which aMartinez-Valpuesta, I. et al.
Fecha de publicación:
12017 -
The clustering of galaxies in the completed SDSS-III Baryon Oscillation Spectroscopic Survey: Cosmological implications of the configuration-space clustering wedgesWe explore the cosmological implications of anisotropic clustering measurements in configuration space of the final galaxy samples from Data Release 12 of the Sloan Digital Sky Survey III Baryon Oscillation Spectroscopic Survey. We implement a new detailed modelling of the effects of non-linearities, bias and redshift-space distortions that can beSánchez, A. G. et al.
Fecha de publicación:
12017
