Galaxy formation and evolution

GalICS V : Low and high order clustering in mock SDSS's

ArXiv astro-ph/0603821 (2006)

Authors:

J Blaizot, I Szapudi, S Colombi, T Budavari, FR Bouchet, JEG Devriendt, B Guiderdoni, J Pan, A Szalay

Abstract:

[Abridged] We use mock catalogues based on the GALICS model (Hatton et al. 03) to explore the nature of galaxy clustering observed in the SDSS. We measure low and high order angular clustering statistic from these mock catalogues, after selecting galaxies the same way as for observations, and compare them directly to estimates from SDSS data. Note that we also present measurements of S3-S5 on the SDSS DR1. We find that our model is in general good agreement with observations in the scale/luminosity range where we can trust the predictions. This range is found to be limited (i) by the size of the dark matter simulation used -- which introduces finite volume effects at large scales -- and by the mass resolution of this simulation -- which introduces incompleteness at apparent magnitudes fainter than $r\sim 20$. We then focus on the small scale clustering properties of galaxies and investigate the behaviour of three different prescriptions for positioning galaxies within haloes of dark matter. We show that galaxies are poor tracers both of DM particles or DM sub-structures, within groups and clusters. Instead, SDSS data tells us that the distribution of galaxies lies somewhat in between these two populations. This confirms the general theoretical expectation from numerical simulations and semi-analytic modelling.

GalICS V : Low and high order clustering in mock SDSS's

(2006)

Authors:

J Blaizot, I Szapudi, S Colombi, T Budavari, FR Bouchet, JEG Devriendt, B Guiderdoni, J Pan, A Szalay

Infrared power-law galaxies in the chandra deep field-south: Active galactic nuclei and ultraluminous infrared galaxies

Astrophysical Journal 640:1 I (2006) 167-184

Authors:

A Alonso-Herrero, PG Pérez-González, DM Alexander, GH Rieke, D Rigopoulou, E Le Floc'h, P Barmby, C Papovich, JR Rigby, FE Bauer, WN Brandt, E Egami, SP Willner, H Dole, JS Huang

Abstract:

We investigate the nature of a sample of 92 Spitzer MIPS 24 μm-selected galaxies in the CDF-S, showing power-law-like emission in the Spitzer IRAC 3.6-8 μm bands. The main goal is to determine whether the galaxies not detected in X-rays (47% of the sample) are part of the hypothetical population of obscured AGNs not detected even in deep X-ray surveys. The majority of the IR power-law galaxies are ULIRGs at z > 1, and those with LIRG-like IR luminosities are usually detected in X-rays. The optical-to-IR SEDs of the X-ray-detected galaxies are almost equally divided between a BLAGN SED class (similar to an optically selected QSO) and an NLAGN SED (similar to the BLAGN SED but with an obscured UV/optical continuum). A small fraction of SEDs resemble warm ULIRGs (e.g., Mrk 231). Most galaxies not detected in X-rays have SEDs in the NLAGN+ULIRG class as they tend to be optically fainter and possibly more obscured. Moreover, the IR power-law galaxies have SEDs significantly different from those of high-z (zsp > 1) IR (24 μm) selected and optically bright (WDS IAB ≤ 24) star-forming galaxies whose SEDs show a very prominent stellar bump at 1.6 μm. The galaxies detected in X-rays have 2-8 keV rest-frame luminosities typical of AGNs. The galaxies not detected in X-rays have global X-ray-to-mid-IR SED properties that make them good candidates to contain IR-bright X-ray-absorbed AGNs. If all these sources are actually obscured AGNs, we would observe a ratio of obscured to unobscured 24 μm-detected AGNs of 2:1, whereas models predict a ratio of up to 3:1. Additional studies using Spitzer to detect X-ray-quiet AGNs are likely to find more such obscured sources. © 2006. The American Astronomical Society. All rights reserved.

Detection Rate Estimates of Gravity-waves Emitted During Parabolic Encounters of Stellar Black Holes in Globular Clusters

(2006)

Authors:

Bence Kocsis, Merse E Gaspar, Szabolcs Marka

A photometric redshift of z = 6.39 ± 0.12 for GRB 050904

Nature 440:7081 (2006) 181-183

Authors:

JB Haislip, MC Nysewander, DE Reichart, A Levan, N Tanvir, SB Cenko, DB Fox, PA Price, AJ Castro-Tirado, J Gorosabel, CR Evans, E Figueredo, CL MacLeod, JR Kirschbrown, M Jelinek, S Guziy, A De Ugarte Postigo, ES Cypriano, A LaCluyze, J Graham, R Priddey, R Chapman, J Rhoads, AS Fruchter, DQ Lamb, C Kouveliotou, RAMJ Wijers, MB Bayliss, BP Schmidt, AM Soderberg, SR Kulkarni, FA Harrison, DS Moon, A Gal-Yam, MM Kasliwal, R Hudec, S Vitek, P Kubanek, JA Crain, AC Foster, JC Clemens, JW Bartelme, R Canterna, DH Hartmann, AA Henden, S Klose, HS Park, GG Williams, E Rol, P O'Brien, D Bersier, F Prada, S Pizarro, D Maturana, P Ugarte, A Alvarez, AJM Fernandez, MJ Jarvis, M Moles, E Alfaro, KM Ivarsen, ND Kumar, CE Mack, CM Zdarowicz, N Gehrels, S Barthelmy, DN Burrows

Abstract:

Gamma-ray bursts (GRBs) and their afterglows are the most brilliant transient events in the Universe. Both the bursts themselves and their afterglows have been predicted to be visible out to redshifts of z ≈ 20, and therefore to be powerful probes of the early Universe1,2. The burst GRB 000131, at z = 4.50, was hitherto the most distant such event identified3. Here we report the discovery of the bright near-infrared afterglow of GRB 050904 (ref. 4). From our measurements of the near-infrared afterglow, and our failure to detect the optical afterglow, we determine the photometric redshift of the burst to be z = 6.39-0.12+0.11 (refs 5-7). Subsequently, it was measured8 spectroscopically to be z = 6.29 ± 0.01, in agreement with our photometric estimate. These results demonstrate that GRBs can be used to trace the star formation, metallicity, and reionization histories of the early Universe. © 2006 Nature Publishing Group.