Galaxy formation and evolution

Structure and dynamics of galaxies with a low surface brightness disc. I. The stellar and ionised-gas kinematics

(2008)

Authors:

A Pizzella, EM Corsini, M Sarzi, J Magorrian, J Mendez-Abreu, L Coccato, L Morelli, F Bertola

The molecular polar disc in NGC 2768

(2008)

Authors:

Alison F Crocker, Martin Bureau, Lisa M Young, Francoise Combes

Brightening of an Accretion Disk Due to Viscous Dissipation of Gravitational Waves During the Coalescence of Supermassive Black Holes

(2008)

Authors:

Bence Kocsis, Abraham Loeb

Four faint T dwarfs from the UKIRT infrared deep sky survey (UKIDSS) southern stripe

Monthly Notices of the Royal Astronomical Society: Letters 385:1 (2008)

Authors:

K Chiu, MC Liu, L Jiang, KN Allers, DP Stark, A Bunker, X Fan, K Glazebrook, TJ Dupuy

Abstract:

We present the optical and near-infrared photometry and spectroscopy of four faint T dwarfs newly discovered from the UKIDSS first data release. The sample, drawn from an imaged area of ~136 deg2 to a depth of Y = 19.9 (5σ, Vega), is located in the Sloan Digital Sky Survey (SDSS) Southern Equatorial Stripe, a region of significant future deep imaging potential. We detail the selection and followup of these objects, three of which are spectroscopically confirmed brown dwarfs ranging from type T2.5 to T7.5, and one is photometrically identified as early T. Their magnitudes range from Y = 19.01 to 19.88 with derived distances from 34 to 98 pc, making these among the coldest and faintest brown dwarfs known. The T7.5 dwarf appears to be single based on 0.05-arcsec images from Keck laser guide star adaptive optics. The sample brings the total number of T dwarfs found or confirmed by UKIDSS data in this region to nine, and we discuss the projected numbers of dwarfs in the future survey data. We estimate that ~240 early and late T dwarfs are discoverable in the UKIDSS Large Area Survey (LAS) data, falling significantly short of published model projections and suggesting that initial mass functions and/or birth rates may be at the low end of possible models. Thus, deeper optical data have good potential to exploit the UKIDSS survey depth more fully, but may still find the potential Y dwarf sample to be extremely rare. © 2008 The Authors. Journal compilation © 2008 RAS.

Cooling, gravity, and geometry: Flow-driven massive core formation

Astrophysical Journal 674:1 (2008) 316-328

Authors:

F Heitsch, LW Hartmann, AD Slyz, JEG Devriendt, A Burkert

Abstract:

We study numerically the formation of molecular clouds in large-scale colliding flows including self-gravity. The models emphasize the competition between the effects of gravity on global and local scales in an isolated cloud. Global gravity builds up large-scale filaments, while local gravity, triggered by a combination of strong thermal and dynamical instabilities, causes cores to form. The dynamical instabilities give rise to a local focusing of the colliding flows, facilitating the rapid formation of massive protostellar cores of a few hundred M⊙. The forming clouds do not reach an equilibrium state, although the motions within the clouds appear to be comparable to virial. The self-similar core mass distributions derived from models with and without self-gravity indicate that the core mass distribution is set very early on during the cloud formation process, predominantly by a combination of thermal and dynamical instabilities rather than by self-gravity. © 2008. The American Astronomical Society. All rights reserved.