Extremely Large Telescope

A highly unequal-mass eclipsing M-dwarf binary in the WFCAM Transit Survey

(2013)

Authors:

SV Nefs, JL Birkby, IAG Snellen, ST Hodgkin, BM Sipocz, G Kovacs, D Mislis, DJ Pinfield, EL Martin

ELT-MOS White Paper: Science Overview & Requirements

(2013)

Authors:

Chris Evans, Mathieu Puech, Beatriz Barbuy, Nate Bastian, Piercarlo Bonifacio, Elisabetta Caffau, Jean-Gabriel Cuby, Gavin Dalton, Ben Davies, Jim Dunlop, Hector Flores, Francois Hammer, Lex Kaper, Bertrand Lemasle, Simon Morris, Laura Pentericci, Patrick Petitjean, Daniel Schaerer, Eduardo Telles, Niraj Welikala, Bodo Ziegler

Detection of molecular absorption in the dayside of exoplanet 51 Pegasi b?

(2013)

Authors:

M Brogi, IAG Snellen, RJ de Kok, S Albrecht, JL Birkby, EJW de Mooij

A black-hole mass measurement from molecular gas kinematics in NGC4526

Nature 494:7437 (2013) 328-330

Authors:

TA Davis, M Bureau, M Cappellari, M Sarzi, L Blitz

Abstract:

The masses of the supermassive black holes found in galaxy bulges are correlated with a multitude of galaxy properties, leading to suggestions that galaxies and black holes may evolve together. The number of reliably measured black-hole masses is small, and the number of methods for measuring them is limited, holding back attempts to understand this co-evolution. Directly measuring black-hole masses is currently possible with stellar kinematics (in early-type galaxies), ionized-gas kinematics (in some spiral and early-type galaxies) and in rare objects that have central maser emission. Here we report that by modelling the effect of a black hole on the kinematics of molecular gas it is possible to fit interferometric observations of CO emission and thereby accurately estimate black-hole masses. We study the dynamics of the gas in the early-type galaxy NGC 4526, and obtain a best fit that requires the presence of a central dark object of× 10 8 solar masses (3σ confidence limit). With the next-generation millimetre-wavelength interferometers these observations could be reproduced in galaxies out to 75 megaparsecs in less than 5 hours of observing time. The use of molecular gas as a kinematic tracer should thus allow one to estimate black-hole masses in hundreds of galaxies in the local Universe, many more than are accessible with current techniques. © 2013 Macmillan Publishers Limited. All rights reserved.

Fast and slow rotators in the densest environments: A FLAMES/GIRAFFE integral field spectroscopy study of galaxies in a1689 at z = 0.183

Monthly Notices of the Royal Astronomical Society 429:2 (2013) 1258-1266

Authors:

F D'Eugenio, RCW Houghton, RL Davies, E Dalla Bontà

Abstract:

We present FLAMES/GIRAFFE integral field spectroscopy of 30 galaxies in the massive cluster A1689 at z = 0.183. Conducting an analysis similar to that of ATLAS3D, we extend the baseline of the kinematic morphology-density relation by an order of magnitude in projected density and show that it is possible to use existing instruments to identify slow and fast rotators beyond the local Universe. We find 4.5 ± 1.0 slow rotators with a distribution in magnitude similar to those in the Virgo cluster. The overall slow rotator fraction of our A1689 sample is 0.15 ± 0.03, the same as in Virgo using our selection criteria. This suggests that the fraction of slow rotators in a cluster is not strongly dependent on its density. However, within A1689, we find that the fraction of slow rotators increases towards the centre, as was also found in the Virgo cluster. © 2012 The Authors. Published by Oxford University Press on behalf of the Royal Astronomical Society.