The M 31 double nucleus probed with OASIS and HST

A&A 371, 409-428 (2001)
DOI: 10.1051/0004-6361:20010317

A natural $\vec m$ = 1 mode?

R. Bacon¹, E. Emsellem¹, F. Combes², Y. Copin^{1, 3}, G. Monnet⁴ and P. Martin⁵

¹ Centre de Recherche Astronomique de Lyon, Observatoire de Lyon, 69561 Saint-Genis-Laval Cedex, France
² DEMIRM, Observatoire de Paris, 61 avenue de l'Observatoire, 75014 Paris, France
³ Sterrewacht Leiden, Niels Bohrweg 2, 2333 CA, Leiden, The Netherlands
⁴ ESO, Karl-Schwarzschild-Strasse 2, 85748 Garching, Germany
⁵ Canada-France-Hawaii Telescope, PO Box 1597, Kamuela, HI 96743, USA

(Received 30 October 2000 / Accepted 28 February 2001)

Abstract
We present observations with the adaptive optics assisted integral field spectrograph OASIS of the M 31 double nucleus in the spectral domain around the Calcium triplet at a spatial resolution better than $0\farcs5$ FWHM. These data are used to derive the two-dimensional stellar kinematics within the central 2´´. Archival WFPC2/HST images in the F300W, F555W and F814W bands are revisited to perform a photometric decomposition of the nuclear region. We also present STIS/HST kinematics obtained from the archive. The luminosity distribution of the central region is well separated into the respective contributions of the bulge, the nucleus including P1 and P2, and the so-called UV peak. We then show, using the OASIS kinematical maps, that the axis joining P1 and P2, the two local surface brightness maxima, does not coincide with the kinematic major-axis, which is also the major-axis of the nuclear isophotes (excluding P1). We also confirm that the velocity dispersion peak is offset by ~ $0\farcs2$ from the UV peak, assumed to mark the location of the supermassive black hole. The newly reduced STIS/HST velocity and dispersion profiles are then compared to OASIS and other published kinematics. We find significant offsets with previously published data. Simple parametric models are then built to successfully reconcile all the available kinematics. We finally interpret the observations using new N-body simulations. The nearly Keplerian nuclear disk of M 31 is subject to a natural m=1 mode, with a very slow pattern speed (3 km s^-1/pc for $M_{\rm BH} = 7 10^7 M_\odot$ ), that can be maintained during more than a thousand dynamical times. The resulting morphology and kinematics of the mode can reproduce the M 31 nuclear-disk photometry and mean stellar velocity, including the observed asymmetries. It requires a central mass concentration and a cold disk system representing between 20 and 40% of its mass. Such a slow mode could be excited when interstellar clouds from the more external gaseous disk infall towards the centre. Nuclear disks formed from accreted gas are possible candidates for the precursors of these types of structures, and may be common in central regions of galaxies.

Key words: galaxies: individuals: M 31 -- galaxies: kinematics and dynamics -- galaxies: nuclei -- galaxies: photometry -- instabilities

Offprint request: R. Bacon, bacon@obs.univ-lyon1.fr

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The M 31 double nucleus probed with OASIS and HST

A natural = 1 mode?

A natural $\vec m$ = 1 mode?