Cosmology

Gas and Dust in a Submillimeter Galaxy at z = 4.24 from the Herschel Atlas

\apj 740 (2011) 63-63

Authors:

P Cox, M Krips, R Neri, A Omont, R Güsten, KM Menten, F Wyrowski, A Weiß, A Beelen, MA Gurwell, H Dannerbauer, RJ Ivison, M Negrello, I Aretxaga, DH Hughes, R Auld, M Baes, R Blundell, S Buttiglione, A Cava, A Cooray, A Dariush, L Dunne, S Dye, SA Eales, D Frayer, J Fritz, R Gavazzi, R Hopwood, E Ibar, M Jarvis, S Maddox, M Micha lowski, E Pascale, M Pohlen, E Rigby, DJB Smith, AM Swinbank, P Temi, I Valtchanov, P van der Werf, G de Zotti

Herschel-ATLAS: rapid evolution of dust in galaxies over the last 5 billion years

\mnras 417 (2011) 1510-1533-1510-1533

Authors:

L Dunne, HL Gomez, E da Cunha, S Charlot, S Dye, S Eales, SJ Maddox, K Rowlands, DJB Smith, R Auld, M Baes, DG Bonfield, N Bourne, S Buttiglione, A Cava, DL Clements, KEK Coppin, A Cooray, A Dariush, G de Zotti, S Driver, J Fritz, J Geach, R Hopwood, E Ibar, RJ Ivison, MJ Jarvis, L Kelvin, E Pascale, M Pohlen, C Popescu, EE Rigby, A Robotham, G Rodighiero, AE Sansom, S Serjeant, P Temi, M Thompson, R Tuffs, P van der Werf, C Vlahakis

New views of old galaxies

Astronomy & Geophysics Oxford University Press (OUP) 52:5 (2011) 5.18-5.24

Modeling of the HERMES submillimeter source lensed by a dark matter dominated foreground group of galaxies

Astrophysical Journal 738:2 (2011)

Authors:

R Gavazzi, A Cooray, A Conley, JE Aguirre, A Amblard, R Auld, A Beelen, A Blain, R Blundell, J Bock, CM Bradford, C Bridge, D Brisbin, D Burgarella, P Chanial, E Chapin, N Christopher, DL Clements, P Cox, SG Djorgovski, CD Dowell, S Eales, L Earle, TP Ellsworth-Bowers, D Farrah, A Franceschini, H Fu, J Glenn, EA González Solares, M Griffin, MA Gurwell, M Halpern, E Ibar, RJ Ivison, M Jarvis, J Kamenetzky, S Kim, M Krips, L Levenson, R Lupu, A Mahabal, PD Maloney, C Maraston, L Marchetti, G Marsden, H Matsuhara, AMJ Mortier, E Murphy, BJ Naylor, R Neri, HT Nguyen, SJ Oliver, A Omont, MJ Page, A Papageorgiou, CP Pearson, I Pérez-Fournon, M Pohlen, N Rangwala, JI Rawlings, G Raymond, D Riechers, G Rodighiero, IG Roseboom, M Rowan-Robinson, B Schulz, D Scott, KS Scott, P Serra, N Seymour, DL Shupe, AJ Smith, M Symeonidis, KE Tugwell, M Vaccari, E Valiante, I Valtchanov, A Verma, JD Vieira, L Vigroux, L Wang, J Wardlow, D Wiebe, G Wright, CK Xu, G Zeimann, M Zemcov, J Zmuidzinas

Abstract:

We present the results of a gravitational lensing analysis of the bright z s = 2.957 submillimeter galaxy (SMG) HERMES found in the Herschel/SPIRE science demonstration phase data from the Herschel Multi-tiered Extragalactic Survey (HerMES) project. The high-resolution imaging available in optical and near-IR channels, along with CO emission obtained with the Plateau de Bure Interferometer, allows us to precisely estimate the intrinsic source extension and hence estimate the total lensing magnification to be μ = 10.9 ± 0.7. We measure the half-light radius R eff of the source in the rest-frame near-UV and V bands that characterize the unobscured light coming from stars and find R eff, * = [2.0 ± 0.1] kpc, in good agreement with recent studies on the SMG population. This lens model is also used to estimate the size of the gas distribution (Reff, gas = [1.1 ± 0.5] kpc) by mapping back in the source plane the CO (J = 5 → 4) transition line emission. The lens modeling yields a relatively large Einstein radius R Ein = 4.″10 ± 0″.02, corresponding to a deflector velocity dispersion of [483 ± 16] km s -1. This shows that HERMES is lensed by a galaxy group-size dark matter halo at redshift z l ∼ 0.6. The projected dark matter contribution largely dominates the mass budget within the Einstein radius with f dm(< R Ein) ∼ 80%. This fraction reduces to f dm(< R eff, G1 ≃ 4.5 kpc) ∼ 47% within the effective radius of the main deflecting galaxy of stellar mass M *, G1 = [8.5 ± 1.6] × 1011 M ⊙. At this smaller scale the dark matter fraction is consistent with results already found for massive lensing ellipticals at z ∼ 0.2 from the Sloan Lens ACS Survey. © 2011. The American Astronomical Society. All rights reserved.

AGN feedback using AMR cosmological simulations

ArXiv 1109.1457 (2011)

Authors:

Yohan Dubois, Julien Devriendt, Adrianne Slyz, Romain Teyssier

Abstract:

Feedback processes are thought to solve some of the long-standing issues of the numerical modelling of galaxy formation: over-cooling, low angular momentum, massive blue galaxies, extra-galactic enrichment, etc. The accretion of gas onto super-massive black holes in the centre of massive galaxies can release tremendous amounts of energy to the surrounding medium. We show, with cosmological Adaptive Mesh Refinement simulations, how the growth of black holes is regulated by the feedback from Active Galactic Nuclei using a new dual jet/heating mechanism. We discuss how this large amount of feedback is able to modify the cold baryon content of galaxies, and perturb the properties of the hot plasma in their vicinity.