Galaxy formation and evolution

The K-band Hubble diagram of sub-mm galaxies and hyperluminous galaxies

(2003)

Authors:

Stephen Serjeant, Duncan Farrah, James Geach, Toshinobu Takagi, Aprajita Verma, Ali Kaviani, Matt Fox

Kinematics of 10 early-type galaxies from Hubble Space Telescope and ground-based spectroscopy

Astrophysical Journal 596:2 I (2003) 903-929

Authors:

J Pinkney, K Gebhardt, R Bender, G Bower, A Dressler, SM Faber, AV Filippenko, R Green, LC Ho, J Kormendy, TR Lauer, J Magorrian, D Richstone, S Tremaine

Abstract:

We present stellar kinematics for a sample of 10 early-type galaxies observed using the Space Telescope Imaging Spectrograph (STIS) aboard the Hubble Space Telescope and the Modular Spectrograph on the MDM Observatory 2.4 m telescope. These observations are a part of an ongoing program to understand the coevolution of supermassive black holes and their host galaxies. Our spectral ranges include either the calcium triplet absorption lines at 8498, 8542, and 8662 Åor the Mg b absorption at 5175 Å. The lines are used to derive line-of-sight velocity distributions (LOSVDs) of the stars using a maximum penalized likelihood method. We use Gauss-Hermite polynomials to parameterize the LOSVDs and find predominantly negative h4 values (boxy distributions) in the central regions of our galaxies. One galaxy, NGC 4697, has significantly positive central h4 (high tail weight). The majority of galaxies have a central velocity dispersion excess in the STIS kinematics over ground-based velocity dispersions. The galaxies with the strongest rotational support, as quantified with vmax/σSTIS have the smallest dispersion excess at STIS resolution. The best-fitting, general, axisymmetric dynamical models (described in a companion paper) require black holes in all cases, with masses ranging from 106.5 to 10 9.3 M⊙. We replot these updated masses on the M BH-σ relation and show that the fit to only these 10 galaxies has a slope consistent with the fits to larger samples. The greatest outlier is NGC 2778, a dwarf elliptical with relatively poorly constrained black hole mass. The two best candidates for pseudobulges, NGC 3384 and NGC 7457, do not deviate significantly from the established relation between MBH and σ. Neither do the three galaxies that show the most evidence of a recent merger, NGC 3608, NGC 4473, and NGC 4697.

Orbital structure of triaxial galaxies

(2003)

Authors:

Glenn van de Ven, Ellen Verolme, Michele Cappellari, Tim de Zeeuw

A Million Element Integral Field Unit (MEIFU)

Scientific Drivers for ESO Future VLT/VLTI Instrumentation Springer (2003)

Authors:

S Morris, R Content, R Sharples, R Bower, Roger Davies, C Baugh

Abstract:

We describe an instrument concept that will provide simultaneous spectra for a million spatial samples on the sky. With the proposed field of view and spectral resolution, it will be able to measure redshifts and line strengths for around 2-4000 z~3-7 galaxies in a 16 night campaign. The main science driver is to obtain a complete census of the star formation properties of galaxies with 2.5

GALICS III: Predicted properties for Lyman Break Galaxies at redshift 3

ArXiv astro-ph/0310071 (2003)

Authors:

J Blaizot, B Guiderdoni, JEG Devriendt, FR Bouchet, S Hatton, F Stoehr

Abstract:

This paper illustrates how mock observational samples of high-redshift galaxies with sophisticated selection criteria can be extracted from the predictions of GALICS, a hybrid model of hierarchical galaxy formation that couples the outputs of large cosmological simulations and semi-analytic recipes to describe dark matter collapse and the physics of baryons respectively. As an example of this method, we focus on the properties of Lyman Break Galaxies at redshift 3. With the MOMAF software package described in a companion paper, we generate a mock observational sample with selection criteria as similar as possible to those implied in the actual observations of z = 3 LBGs by Steidel et al.(1995). Our model predictions are in good agreement with the observed number density and 2D correlation function. We investigate the optical/IR luminosity budget as well as several other physical properties of LBGs and find them to be in general agreement with observed values. Looking into the future of these LBGs we predict that 75% of them end up as massive ellipticals today, even though only 35% of all our local ellipticals are predicted to have a LBG progenitor. In spite of some shortcomings, this new 'mock observation' method clearly represents a necessary first step toward a more accurate comparison between hierarchical models of galaxy formation and real observational surveys.