Extremely Large Telescope

Understanding early-type galaxies. Discussion session

ASTR SOC P 297 (2003) 295-303

Abstract:

To initiate this discussion I raised five topics (i) the physical mechanisms that give rise to the global relationships observed in early type galaxies, (ii) the origin of the environmental dependences of galaxy properties such as morphology and mean age, (iii) lessons from galaxy populations in intermediate redshift clusters, (iv) the role of black holes in galaxy evolution and (v) the order of formation of different galactic subcomponents. Comments and questions ranged over these and other issues and a lively discussion ensued.

The 2dF Galaxy Redshift Survey: the luminosity function of cluster galaxies

(2002)

Authors:

Roberto De Propris, M Colless, S Driver, W Couch, J Peacock, I Baldry, C Baugh, C Collins, J Bland-Hawthorn, T Bridges, R Cannon, S Cole, N Cross, GB Dalton, G Efstathiou, RS Ellis, CS Frenk, K Glazebrook, E Hawkins, C Jackson, O Lahav, I Lewis, S Lumsden, S Maddox, DS Madgwick, P Norberg, W Percival, B Peterson, W Sutherland, K Taylor

The 2dF Galaxy Redshift Survey: correlation functions, peculiar velocities and the matter density of the Universe

(2002)

Authors:

E Hawkins, S Maddox, S Cole, O Lahav, D Madgwick, P Norberg, J Peacock, I Baldry, C Baugh, J Bland-Hawthorn, T Bridges, R Cannon, M Colless, C Collins, W Couch, G Dalton, R De Propris, S Driver, G Efstathiou, R Ellis, C Frenk, K Glazebrook, C Jackson, B Jones, I Lewis, S Lumsden, W Percival, B Peterson, W Sutherland, K Taylor

Parameter constraints for flat cosmologies from cosmic microwave background and 2dFGRS power spectra

Monthly Notices of the Royal Astronomical Society 337:3 (2002) 1068-1080

Authors:

WJ Percival, W Sutherland, JA Peacock, CM Baugh, J Bland-Hawthorn, T Bridges, R Cannon, S Cole, M Colless, C Collins, W Couch, G Dalton, R De Propris, SP Driver, G Efstathiou, RS Ellis, CS Frenk, K Glazebrook, C Jackson, O Lahav, I Lewis, S Lumsden, S Maddox, S Moody, P Norberg, BA Peterson, K Taylor

Abstract:

We constrain flat cosmological models with a joint likelihood analysis of a new compilation of data from the cosmic microwave background (CMB) and from the 2dF Galaxy Redshift Survey (2dFGRS). Fitting the CMB alone yields a known degeneracy between the Hubble constant h and the matter density Ωm, which arises mainly from preserving the location of the peaks in the angular power spectrum. This 'horizon-angle degeneracy' is considered in some detail and is shown to follow the simple relation Ωm h3.4 = constant. Adding the 2dF-GRS power spectrum constrains Ωm h and breaks the degeneracy. If tensor anisotropies are assumed to be negligible, we obtain values for the Hubble constant of h = 0.665±0.047, the matter density Ωm = 0.313±0.055, and the physical cold dark matter and baryon densities Ωm h2 = 0.115±0.009, Ωm h2 = 0.022±0.002 (standard rms errors). Including a possible tensor component causes very little change to these figures; we set an upper limit to the tensor-to-scalar ratio of r < 0.7 at a 95 per cent confidence level. We then show how these data can be used to constrain the equation of state of the vacuum, and find w < -0.52 at 95 per cent confidence. The preferred cosmological model is thus very well specified, and we discuss the precision with which future CMB data can be predicted, given the model assumptions. The 2dFGRS power-spectrum data and covariance matrix, and the CMB data compilation used here, are available from http://www.roe.ac.uk/~wjp/.

Dynamical masses of young star clusters in interacting galaxies

Proceedings of SPIE - The International Society for Optical Engineering 4834 (2002) 45-56

Authors:

S Mengel, MD Lehnert, NA Thatte, R Genzel

Abstract:

Using ISAAC on VLT-ANTU and UVES on VLT-KUEYEN we have begun a program to measure stellar velocity dispersions of young star clusters in merging and interacting galaxies. In this contribution, we present results for clusters in two interacting galaxies - NGC 4038/39 and NGC 1487. Combining the measured velocity dispersions with sizes of the clusters estimated from Hubble Space Telescope imaging data resulted in the first determinations of dynamical masses of stellar clusters in galaxy mergers. Due to the faintness of the clusters and the high spectral resolution required, these results could only be obtained in with 10m class telescopes. Our results suggest that masses, sizes and concentrations of the light distributions are comparable to those of globular clusters, supporting the idea that part of the globular cluster population in elliptical galaxies is formed as a result of a merger event between to gas-rich spiral galaxies. However, the initial mass function (IMF) of the stars in the clusters seems to vary with environment: In some regions (dust-rich?), the IMF is more biased towards low-mass stars than in other (dust-poor) regions. There is a long-standing and substantial controversy in the literature whether or not their exists a "universal IMF". Our results for clusters in merging galaxies support the notion that the IMF depends on the birth environment of the cluster or perhaps some other variable. The relative content of low mass stars also influences the survival probability of stellar clusters. For their masses and light concentrations, some of the clusters have sufficiently shallow IMFs that it is likely that they will dissolve within a Hubble time, while for others, the IMF is sufficiently steep that they are likely to survive but undergo significant mass loss during their evolution.