John Magorrian

Regularized orbit models unveiling the stellar structure and dark matter halo of the Coma elliptical NGC 4807

Monthly Notices of the Royal Astronomical Society 360:4 (2005) 1355-1372

Authors:

J Thomas, RP Saglia, R Bender, D Thomas, K Gebhardt, J Magorrian, EM Corsini, G Wegner

Abstract:

This is the second in a series of papers dedicated to unveiling the mass structure and orbital content of a sample of flattened early-type galaxies in the Coma cluster. The ability of our orbit libraries to reconstruct internal stellar motions and the mass composition of a typical elliptical in the sample is investigated by means of Monte Carlo simulations of isotropic rotator models. The simulations allow a determination of the optimal amount of regularization needed in the orbit superpositions. It is shown that under realistic observational conditions and with the appropriate regularization, internal velocity moments can be reconstructed to an accuracy of ≈15 per cent; the same accuracy can be achieved for the circular velocity and dark matter fraction. In contrast, the flattening of the halo remains unconstrained. Regularized orbit superpositions are applied to a first galaxy in our sample, NGC 4807, for which stellar kinematical observations extend to 3 r eff. The galaxy seems dark-matter dominated outside r > 2 r eff. Logarithmic dark matter potentials are consistent with the data, as well as NFW profiles, mimicking logarithmic potentials over the observationally sampled radial range. In both cases, the derived stellar mass-to-light ratio Υ agrees well with independently obtained mass-to-light ratios from stellar population analysis. The achieved accuracy is ΔΥ ≈ 0.5. Kinematically, NGC 4807 is characterized by mild radial anisotropy outside r > 0.5 r eff, becoming isotropic towards the centre. Our orbit models hint at either a distinct stellar component or weak triaxiality in the outer parts of the galaxy. © 2005 RAS.

The centers of early-type galaxies with Hubble Space Telescope. V. New WFPC2 photometry

Astronomical Journal 129:5 (2005) 2138-2185

Authors:

TR Lauer, SM Faber, K Gebhardt, D Richstone, S Tremaine, EA Ajhar, MC Aller, R Bender, A Dressler, AV Filippenko, R Green, CJ Grillmair, CH Luis, J Kormendy, J Magorrian, J Pinkney, C Siopis

Abstract:

We present observations of 77 early-type galaxies imaged with the PC1 CCD of the Hubble Space Telescope (HST) WFPC2. "Nuker-law" parametric fits to the surface brightness profiles are used to classify the central structure into "core" or "power-law" forms. Core galaxies are typically rounder than power-law galaxies. Nearly all power-law galaxies with central ellipticities ε ≥ 0.3 have stellar disks, implying that disks are present in power-law galaxies with ε < 0.3 but are not visible because of unfavorable geometry. A few low-luminosity flattened core galaxies also have disks; these may be transition forms from power-law galaxies to more luminous core galaxies, which lack disks. Several core galaxies have strong isophote twists interior to their break radii, although power-law galaxies have interior twists of similar physical significance when the photometric perturbations implied by the twists are evaluated. Central color gradients are typically consistent with the envelope gradients; core galaxies have somewhat weaker color gradients than power-law galaxies. Nuclei are found in 29% of the core galaxies and 60% of the power-law galaxies. Nuclei are typically bluer than the surrounding galaxy. While some nuclei are associated with active galactic nuclei (AGNs), just as many are not; conversely, not all galaxies known to have a low-level AGN exhibit detectable nuclei in the broadband filters. NGC 4073 and 4382 are found to have central minima in their intrinsic starlight distributions; NGC 4382 resembles the double nucleus of M31. In general, the peak brightness location is coincident with the photocenter of the core to a typical physical scale of < 1 pc. Five galaxies, however, have centers significantly displaced from their surrounding cores; these may be unresolved asymmetric double nuclei. Finally, as noted by previous authors, central dust is visible in about half of the galaxies. The presence and strength of dust correlates with nuclear emission; thus, dust may outline gas that is falling into the central black hole. The prevalence of dust and its morphology suggest that dust clouds form, settle to the center, and disappear repeatedly on ∼ 108 yr timescales. We discuss the hypothesis that cores are created by the decay of a massive black hole binary formed in a merger. Apart from their brightness profiles, there are no strong differences between core galaxies and power-law galaxies that demand this scenario; however, the rounder shapes of core, their lack of disks, and their reduced color gradients may be consistent with it. © 2005. The American Astronomical Society. All rights reserved.

Regularized orbit models unveiling the stellar structure and dark matter halo of the Coma elliptical NGC 4807

(2005)

Authors:

J Thomas, RP Saglia, R Bender, D Thomas, K Gebhardt, J Magorrian, EM Corsini, G Wegner

The Centers of Early-Type Galaxies with HST. V. New WFPC2 Photometry

(2004)

Authors:

Tod R Lauer, SM Faber, Karl Gebhardt, Douglas Richstone, Scott Tremaine, Edward A Ajhar, MC Aller, Ralf Bender, Alan Dressler, Alexei V Filippenko, Richard Green, Carl J Grillmair, Luis C Ho, John Kormendy, John Magorrian, Jason Pinkney, Christos Siopis

Low Surface Brighness galaxies: Vc-s0 relation and halo central density radial profile from stellar kinematics measurements

Sissa Medialab Srl (2004) 046

Authors:

Alessandro Pizzella, EM Corsini, E Dalla-Bonta', L Coccato, F Bertola, J Magorrian, M Sarzi