On the dependence of spectroscopic indices of early-type galaxies on age, metallicity and velocity dispersion

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 323:3 (2001) 615-629

Authors:

H Kuntschner, JR Lucey, RJ Smith, MJ Hudson, RL Davies

On the origin of the color-magnitude relation in the Virgo Cluster

ASTROPHYSICAL JOURNAL 551:2 (2001) L127-L130

Authors:

A Vazdekis, H Kuntschner, RL Davies, N Arimoto, O Nakamura, R Peletier

Pattern speed measurements in two barred galaxies

ASTR SOC P 249 (2001) 78-84

Authors:

AJ Baker, E Schinnerer, NZ Scoville, PP Englmaier, LJ Tacconi, LE Tacconi-Garman, N Thatte

Abstract:

Knowledge of the pattern speed in a barred galaxy is an important prerequisite for determining the radii of its dynamical resonances. Once identified, these can in turn be used to constrain models for nuclear fueling and secular evolution. Here, we present measurements of the pattern speeds in two barred galaxies-one direct (in NGC 1068, using the Tremaine-Weinberg method in the near infrared) and one indirect (in NGC 7479, using a fit to three-dimensional molecular emission-line data). We find good evidence that a configuration of dynamically decoupled "bars within bars" is present in each system.

Position-velocity diagrams in the inner regions of disk galaxies

ASTR SOC P 230 (2001) 277-278

Authors:

JG Funes, A Pizzella, EM Corsini, M Cappellari, MC Scarlata, F Bertola, JCV Beltran

Probing galaxy formation with high energy gamma-rays

AIP CONF PROC 558 (2001) 463-478

Authors:

JR Primack, RS Somerville, JS Bullock, JEG Devriendt

Abstract:

We discuss how measurements of the absorption of gamma -rays from GeV to TeV energies via pair production on the extragalactic background light (EBL) can probe important issues in galaxy formation. We use semi-analytic models (SAMs) of galaxy formation, set within the hierarchical structure formation scenario, to obtain predictions of the EEL from 0.1 to 1000 mum. SAMs incorporate simplified physical treatments of the key processes of galaxy formation - including gravitational collapse and merging of dark matter halos, gas cooling and dissipation, star formation, supernova feedback and metal production - and have been shown to reproduce key observations at low and high redshift. Here we also introduce improved modelling of the spectral energy distributions in the mid-to-far-IR arising from emission by dust grains. Assuming a flat ACDM cosmology with Omega (m) = 0.3 and Hubble parameter h = 0.65, we investigate the consequences of variations in input assumptions such as the stellar initial mass function (IMF) and the efficiency of converting cold gas into stars. We conclude that observational studies of the absorption of gamma -rays with energies from similar to 10 Gev to similar to 10 TeV will help to determine the EEL, and also help to explain its origin by constraining some of the most uncertain features of galaxy formation theory, including the IMF, the history of star formation, and the reprocessing of light by dust.