Galaxy formation and evolution

Merger Histories in Warm Dark Matter Structure Formation Scenario

(2001)

Authors:

Alexander Knebe, Julien Devriendt, Asim Mahmood, Joseph Silk

Star formation losses due to tidal debris in `hierarchical' galaxy formation

ArXiv astro-ph/0105152 (2001)

Authors:

BF Roukema, S Ninin, J Devriendt, F Bouchet, B Guiderdoni, GA Mamon

Abstract:

Bottom-up hierarchical formation of dark matter haloes is not as monotonic as implicitly assumed in the Press-Schechter formalism: matter can be ejected into tidal tails, shells or low density `atmospheres'. The implications that the possible truncation of star formation in these tidal `debris' may have for observational galaxy statistics are examined here using the ArFus N-body plus semi-analytical galaxy modelling software. Upper and lower bounds on stellar losses implied by a given set of N-body simulation output data can be investigated by choice of the merging/identity criterion of haloes between successive N-body simulation output times. A median merging/identity criterion is defined and used to deduce an upper estimate of possible star formation and stellar population losses. A largest successor merging/identity criterion is defined to deduce an estimate which minimises stellar losses. In the N-body simulations studied, the debris losses are short range in length and temporary; maximum loss is around 16%. The induced losses for star formation and luminosity functions are strongest (losses of 10%-30%) for low luminosity galaxies and at intermediate redshifts (1 < z < 3). This upper bound on likely losses is smaller than present observational uncertainties. Hence, Press-Schechter based galaxy formation models are approximately valid despite ignoring loss of debris, provided that dwarf galaxy statistics are not under study.

Star formation losses due to tidal debris in `hierarchical' galaxy formation

(2001)

Authors:

BF Roukema, S Ninin, J Devriendt, F Bouchet, B Guiderdoni, GA Mamon

Serendipitously Detected Galaxies in the Hubble Deep Field

(2001)

Authors:

Steve Dawson, Daniel Stern, Andrew J Bunker, Hyron Spinrad, Arjun Dey

Hubble Space Telescope-NICMOS Observations of M31’s Metal-Rich Globular Clusters and Their Surrounding Fields. I. Techniques**Based on observations with the NASA/ESA Hubble Space Telescope obtained at the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy (AURA), Inc., for NASA under contract NAS 5-26555.

The Astronomical Journal American Astronomical Society 121:5 (2001) 2584-2596

Authors:

Andrew W Stephens, Jay A Frogel, Wendy Freedman, Carme Gallart, Pascale Jablonka, Sergio Ortolani, Alvio Renzini, R Michael Rich, Roger Davies