The Fornax Deep Survey with VST. II. Fornax A: A Two-phase Assembly Caught in the Act

Iodice, E.; Spavone, M.; Capaccioli, M.; Peletier, R. F.; Richtler, T.; Hilker, M.; Mieske, S.; Limatola, L.; Grado, A.; Napolitano, N. R.; Cantiello, M.; D'Abrusco, R.; Paolillo, M.; Venhola, A.; Lisker, T.; Van de Ven, G.; Falcon-Barroso, J.; Schipani, P.
Referencia bibliográfica

The Astrophysical Journal, Volume 839, Issue 1, article id. 21, 19 pp. (2017).

Fecha de publicación:
4
2017
Número de autores
18
Número de autores del IAC
1
Número de citas
67
Número de citas referidas
61
Descripción
As part of the Fornax Deep Survey with the ESO VLT Survey Telescope, we present new g- and r-band mosaics of the SW group of the Fornax Cluster. It covers an area of 3 × 2 square degrees around the central galaxy NGC 1316. The deep photometry, the high spatial resolution of OmegaCam, and the large covered area allow us to study the galaxy structure, trace stellar halo formation, and look at the galaxy environment. We map the surface brightness profile out to 33‧ (˜200 kpc ˜ 15R e ) from the galaxy center, down to {μ }g˜ 31 {mag} arcsec-2 and {μ }r˜ 29 {mag} arcsec-2. This allow us to estimate the scales of the main components dominating the light distribution, which are the central spheroid, inside 5.‧5 (˜33 kpc), and the outer stellar envelope. Data analysis suggests that we are catching in the act the second phase of the mass assembly in this galaxy, since the accretion of smaller satellites is going on in both components. The outer envelope of NGC 1316 still hosts the remnants of the accreted satellite galaxies that are forming the stellar halo. We discuss the possible formation scenarios for NGC 1316, by comparing the observed properties (morphology, colors, gas content, kinematics, and dynamics) with predictions from cosmological simulations of galaxy formation. We find that (i) the central spheroid could result from at least one merging event (it could be a preexisting early-type disk galaxy with a lower-mass companion) and (ii) the stellar envelope comes from the gradual accretion of small satellites.
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