Michele Cappellari

SDSS-IV MaNGA IFS Galaxy Survey --- Survey Design, Execution, and Initial Data Quality

(2016)

Authors:

Renbin Yan, Kevin Bundy, David R Law, Matthew A Bershady, Brett Andrews, Brian Cherinka, Aleksandar M Diamond-Stanic, Niv Drory, Nicholas MacDonald, José R Sánchez-Gallego, Daniel Thomas, David A Wake, Anne-Marie Weijmans, Kyle B Westfall, Kai Zhang, Alfonso Aragón-Salamanca, Francesco Belfiore, Dmitry Bizyaev, Guillermo A Blanc, Michael R Blanton, Joel Brownstein, Michele Cappellari, Richard D'Souza, Eric Emsellem, Hai Fu, Patrick Gaulme, Mark T Graham, Daniel Goddard, James E Gunn, Paul Harding, Amy Jones, Karen Kinemuchi, Cheng Li, Hongyu Li, Roberto Maiolino, Shude Mao, Claudia Maraston, Karen Masters, Michael R Merrifield, Daniel Oravetz, Kaike Pan, John K Parejko, Sebastian F Sanchez, David Schlegel, Audrey Simmons, Karun Thanjavur, Jeremy Tinker, Christy Tremonti, Remco van den Bosch, Zheng Zheng

The SLUGGS survey: a new mask design to reconstruct the stellar populations and kinematics of both inner and outer galaxy regions

(2016)

Authors:

Nicola Pastorello, Duncan A Forbes, Adriano Poci, Aaron J Romanowsky, Richard McDermid, Adebusola B Alabi, Jean P Brodie, Michele Cappellari, Vincenzo Pota, Caroline Foster

Kinematic properties of double-barred galaxies: simulations vs. integral-field observations

(2016)

Authors:

Min Du, Victor P Debattista, Juntai Shen, Michele Cappellari

The mass discrepancy acceleration relation in early-type galaxies: extended mass profiles and the phantom menace to MOND

(2016)

Authors:

Joachim Janz, Michele Cappellari, Aaron J Romanowsky, Luca Ciotti, Adebusola Alabi, Duncan A Forbes

The mass discrepancy acceleration relation in early-type galaxies: extended mass profiles and the phantom menace to MOND

Monthly Notices of the Royal Astronomical Society Oxford University Press 461:3 (2016) 2367-2373

Authors:

Joachim Janz, Michele Cappellari, Aaron J Romanowsky, Luca Ciotti, Adebusola Alabi, Duncan A Forbes

Abstract:

The dark matter (DM) haloes around spiral galaxies appear to conspire with their baryonic content: empirically, significant amounts of DM are inferred only below a universal characteristic acceleration scale. Moreover, the discrepancy between the baryonic and dynamical mass, which is usually interpreted as the presence of DM, follows a very tight mass discrepancy acceleration (MDA) relation. Its universality, and its tightness in spiral galaxies, poses a challenge for the DM interpretation and was used to argue in favour of MOdified Newtonian Dynamics (MOND). Here, we test whether or not this applies to early-type galaxies. We use the dynamical models of fast-rotator early-type galaxies by Cappellari et al. based on ATLAS 3D and SAGES Legacy Unifying Globulars and GalaxieS (SLUGGS) data, which was the first homogenous study of this kind, reaching ∼4Re, where DM begins to dominate the total mass budget. We find the early-type galaxies to follow an MDA relation similar to spiral galaxies, but systematically offset. Also, while the slopes of the mass density profiles inferred from galaxy dynamics show consistency with those expected from their stellar content assuming MOND, some profiles of individual galaxies show discrepancies.