Galaxy formation and evolution

Star Formation in Viscous Galaxy Disks

ArXiv astro-ph/0009330 (2000)

Authors:

Adrianne Slyz, Julien Devriendt, Andreas Burkert, Kevin Prendergast, Joseph Silk

Abstract:

The Lin and Pringle model (1987) of galactic disk formation postulates that if star formation proceeds on the same timescale as the viscous redistribution of mass and angular momentum in disk galaxies, then the stars attain an exponential density profile. Their claim is that this result holds generally: regardless of the disk galaxy's initial gas and dark matter distribution and independent of the nature of the viscous processes acting in the disk. We present new results from a set of 2D hydro-simulations which investigate their analytic result.

Star Formation in Viscous Galaxy Disks

(2000)

Authors:

Adrianne Slyz, Julien Devriendt, Andreas Burkert, Kevin Prendergast, Joseph Silk

The European Large Area ISO Survey — I. Goals, definition and observations

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 316:4 (2000) 749-767

Authors:

Seb Oliver, Michael Rowan-Robinson, DM Alexander, O Almaini, M Balcells, AC Baker, X Barcons, M Barden, I Bellas-Velidis, F Cabrera-Guerra, R Carballo, CJ Cesarsky, P Ciliegi, DL Clements, H Crockett, L Danese, A Dapergolas, B Drolias, N Eaton, A Efstathiou, E Egami, D Elbaz, D Fadda, M Fox, A Franceschini, R Genzel, P Goldschmidt, M Graham, JI Gonzalez-Serrano, EA Gonzalez-Solares, GL Granato, C Gruppioni, U Herbstmeier, P Héraudeau, M Joshi, E Kontizas, M Kontizas, JK Kotilainen, D Kunze, F La Franca, C Lari, A Lawrence, D Lemke, MJD Linden-Vørnle, RG Mann, I Márquez, J Masegosa, K Mattila, RG McMahon, G Miley, V Missoulis, B Mobasher, T Morel, H Nørgaard-Nielsen, A Omont, P Papadopoulos, I Perez-Fournon, J-L Puget, D Rigopoulou, B Rocca-Volmerange, S Serjeant, L Silva, T Sumner, C Surace, P Vaisanen, PP van der Werf, A Verma, L Vigroux, M Villar-Martin, CJ Willott

A relationship between nuclear black hole mass and galaxy velocity dispersion

Astrophysical Journal 539:1 PART 2 (2000) L13-L16

Authors:

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

Abstract:

We describe a correlation between the mass Mbh of a galaxy's central black hole and the luminosity-weighted line-of-sight velocity dispersion σe within the half-light radius. The result is based on a sample of 26 galaxies, including 13 galaxies with new determinations of black hole masses from Hubble Space Telescope measurements of stellar kinematics. The best-fit correlation is Mbh = 1.2(±0.2) × 10⁸ M⊙(σe/200 km s^-1)^{3.75 (±0.3)}over almost 3 orders of magnitude in Mbh; the scatter in Mbh at fixed σe is only 0.30 dex, and most of this is due to observational errors. The Mbh-σe relation is of interest not only for its strong predictive power but also because it implies that central black hole mass is constrained by and closely related to properties of the host galaxy's bulge.

The European Large Area ISO Survey III: 90micron extragalactic source counts

(2000)

Authors:

A Efstathiou, S Oliver, M Rowan-Robinson, C Surace, T Sumner, P Heraudeau, MJD Linden-Vornle, D Rigopoulou, S Serjeant, RG Mann, CJ Cesarsky, L Danese, A Franceschini, R Genzel, A Lawrence, D Lemke, RG McMahon, G Miley, J-L Puget, B Rocca-Volmerange