Michele Cappellari

Linear relation between HI circular velocity and stellar velocity dispersion in early-type galaxies, and slope of the density profiles

(2016)

Authors:

Paolo Serra, Tom Oosterloo, Michele Cappellari, Milan den Heijer, Gyula IG Józsa

Linear relation between H i circular velocity and stellar velocity dispersion in early-type galaxies, and slope of the density profiles

Monthly Notices of the Royal Astronomical Society Oxford University Press 460:2 (2016) 1382-1389

Authors:

P Serra, T Oosterloo, Michele Cappellari, M den Heijer, GIG Józsa

Abstract:

© 2016 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society. We report a tight linear relation between the H i circular velocity measured at 6 R e and the stellar velocity dispersion measured within 1 R e for a sample of 16 early-type galaxies with stellar mass between 1010 and 1011 M ⊙ . The key difference from previous studies is that we only use spatially resolved v circ (H i) measurements obtained at large radius for a sizeable sample of objects. We can therefore link a kinematical tracer of the gravitational potential in the dark-matter dominated outer regions of galaxies with one in the inner regions, where baryons control the distribution of mass. We find that v circ (H i)= 1.33 σ e with an observed scatter of just 12 per cent. This indicates a strong coupling between luminous and dark matter from the inner- to the outer regions of early-type galaxies, analogous to the situation in spirals and dwarf irregulars. The v circ (H i)-σ e relation is shallower than those based on v circ measurements obtained from stellar kinematics and modelling at smaller radius, implying that v circ declines with radius - as in bulge-dominated spirals. Indeed, the value of v circ (H i) is typically 25 per cent lower than the maximum v circ derived at ~0.2 R e from dynamical models. Under the assumption of power-law total density profiles ρ ∝ r -γ , our data imply an average logarithmic slope 〈γ〉 = 2.18 ± 0.03 across the sample, with a scatter of 0.11 around this value. The average slope and scatter agree with recent results obtained from stellar kinematics alone for a different sample of early-type galaxies.

Radial constraints on the initial mass function from TiO features and Wing-Ford band in early-type galaxies

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 457:2 (2016) 1468-1489

Authors:

F La Barbera, A Vazdekis, I Ferreras, A Pasquali, M Cappellari, I Martin-Navarro, F Schoenebeck, J Falcon-Barroso

Sizes, Colour gradients and Resolved Stellar Mass Distributions for the Massive Cluster Galaxies in XMMUJ2235-2557 at z = 1.39

(2016)

Authors:

Jeffrey CC Chan, Alessandra Beifiori, J Trevor Mendel, Roberto P Saglia, Ralf Bender, Matteo Fossati, Audrey Galametz, Michael Wegner, David J Wilman, Michele Cappellari, Roger L Davies, Ryan CW Houghton, Laura J Prichard, Ian J Lewis, Ray Sharples, John P Stott

The stellar structure of early-type galaxies: a wide-field Mitchell Spectrograph view

Proceedings of the International Astronomical Union Cambridge University Press (CUP) 11:S321 (2016) 288-288

Authors:

NF Boardman, A Weijmans, RCE van den Bosch, L Zhu, A Yildirim, G van de Ven, M Cappellari, PT de Zeeuw, E Emsellem, D Krajnović, T Naab