Cosmology

Rapid Coeval Black Hole and Host Galaxy Growth in MRC 1138-262: The Hungry Spider

\apj 755 (2012) 146-146

Authors:

N Seymour, B Altieri, C De Breuck, P Barthel, D Coia, L Conversi, H Dannerbauer, A Dey, M Dickinson, G Drouart, A Galametz, TR Greve, M Haas, N Hatch, E Ibar, R Ivison, M Jarvis, A Kovács, J Kurk, M Lehnert, G Miley, N Nesvadba, JI Rawlings, A Rettura, H Röttgering, B Rocca-Volmerange, M Sánchez-Portal, JS Santos, D Stern, J Stevens, I Valtchanov, J Vernet, D Wylezalek

Synthetic X-ray spectra for simulations of the dynamics of an accretion flow irradiated by a quasar

ArXiv 1207.7194 (2012)

Authors:

SA Sim, D Proga, R Kurosawa, KS Long, L Miller, TJ Turner

The Epoch of Disk Settling: z~1 to Now

ArXiv 1207.7072 (2012)

Authors:

Susan A Kassin, Benjamin J Weiner, SM Faber, Jonathan P Gardner, CNA Willmer, Alison L Coil, Michael C Cooper, Julien Devriendt, Aaron A Dutton, Puragra Guhathakurta, David C Koo, AJ Metevier, Kai G Noeske, Joel R Primack

Abstract:

We present evidence from a sample of 544 galaxies from the DEEP2 Survey for evolution of the internal kinematics of blue galaxies with stellar masses ranging 8.0 < log M* (M_Sun) < 10.7 over 0.2

The Epoch of Disk Settling: z~1 to Now

(2012)

Authors:

Susan A Kassin, Benjamin J Weiner, SM Faber, Jonathan P Gardner, CNA Willmer, Alison L Coil, Michael C Cooper, Julien Devriendt, Aaron A Dutton, Puragra Guhathakurta, David C Koo, AJ Metevier, Kai G Noeske, Joel R Primack

A filament of dark matter between two clusters of galaxies

Nature 487:7406 (2012) 202-204

Authors:

JP Dietrich, N Werner, D Clowe, A Finoguenov, T Kitching, L Miller, A Simionescu

Abstract:

It is a firm prediction of the concordance cold-dark-matter cosmological model that galaxy clusters occur at the intersection of large-scale structure filaments. The thread-like structure of this 'cosmic web' has been traced by galaxy redshift surveys for decades. More recently, the warm-hot intergalactic medium (a sparse plasma with temperatures of 10 5 kelvin to 10 7 kelvin) residing in low-redshift filaments has been observed in emission and absorption. However, a reliable direct detection of the underlying dark-matter skeleton, which should contain more than half of all matter, has remained elusive, because earlier candidates for such detections were either falsified or suffered from low signal-to-noise ratios and unphysical misalignments of dark and luminous matter. Here we report the detection of a dark-matter filament connecting the two main components of the Abell 222/223 supercluster system from its weak gravitational lensing signal, both in a non-parametric mass reconstruction and in parametric model fits. This filament is coincident with an overdensity of galaxies and diffuse, soft-X-ray emission, and contributes a mass comparable to that of an additional galaxy cluster to the total mass of the supercluster. By combining this result with X-ray observations, we can place an upper limit of 0.09 on the hot gas fraction (the mass of X-ray-emitting gas divided by the total mass) in the filament. © 2012 Macmillan Publishers Limited. All rights reserved.