Galaxy formation and evolution

Radio Galaxy Zoo: discovery of a poor cluster through a giant wide-angle tail radio galaxy

Monthly Notices of the Royal Astronomical Society Oxford University Press 460:3 (2016) 2376-2384

Authors:

JK Banfield, H Andernach, AD Kapińska, L Rudnick, MJ Hardcastle, Garret Cotter, S Vaughan, TW Jones, I Heywood, JD Wing, OI Wong, T Matorny, IA Terentev, ÁR López-Sánchez, RP Norris, N Seymour, SS Shabala, KW Willett

Abstract:

We have discovered a previously unreported poor cluster of galaxies (RGZ-CL J0823.2+0333) through an unusual giant wide-angle tail radio galaxy found in the Radio Galaxy Zoo project. We obtained a spectroscopic redshift of z = 0.0897 for the E0-type host galaxy, 2MASX J08231289+0333016, leading to Mr = −22.6 and a 1.4 GHz radio luminosity density of L1.4 = 5.5 × 1024 W Hz−1. These radio and optical luminosities are typical for wide-angle tailed radio galaxies near the borderline between Fanaroff–Riley classes I and II. The projected largest angular size of ≈8 arcmin corresponds to 800 kpc and the full length of the source along the curved jets/trails is 1.1 Mpc in projection. X-ray data from the XMM–Newton archive yield an upper limit on the X-ray luminosity of the thermal emission surrounding RGZ J082312.9+033301 at 1.2–2.6 × 1043 erg s−1 for assumed intracluster medium temperatures of 1.0–5.0 keV. Our analysis of the environment surrounding RGZ J082312.9+033301 indicates that RGZ J082312.9+033301 lies within a poor cluster. The observed radio morphology suggests that (a) the host galaxy is moving at a significant velocity with respect to an ambient medium like that of at least a poor cluster, and that (b) the source may have had two ignition events of the active galactic nucleus with 107 yr in between. This reinforces the idea that an association between RGZ J082312.9+033301 and the newly discovered poor cluster exists.

BROAD [C Pi] LINE WINGS AS TRACER OF MOLECULAR AND MULTI-PHASE OUTFLOWS IN INFRARED BRIGHT GALAXIES

ASTROPHYSICAL JOURNAL 822:1 (2016) ARTN 43

Authors:

AW Janssen, N Christopher, E Sturm, S Veilleux, A Contursi, E Gonzalez-Alfonso, J Fischer, R Davies, A Verma, J Gracia-Carpio, R Genzel, D Lutz, A Sternberg, L Tacconi, L Burtscher, A Poglitsch

Testing quasar unification: radiative transfer in clumpy winds

Monthly Notices of the Royal Astronomical Society 458:1 (2016) 293-305

Authors:

JH Matthews, C Knigge, KS Long, SA Sim, N Higginbottom, SW Mangham

The low dark matter content of the lenticular galaxy NGC 3998

Monthly Notices of the Royal Astronomical Society Oxford University Press 460:3 (2016) 3029-3043

Authors:

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

Abstract:

We observed the lenticular galaxy NGC 3998 with the Mitchell Integral-Field Spectrograph and extracted line-of-sight velocity distributions out to three half-light radii. We constructed collisionless orbit models in order to constrain NGC 3998's dark and visible structure, using kinematics from both the Mitchell and SAURON instruments. We find NGC 3998 to be almost axisymmetric, seen nearly face-on with a flattened intrinsic shape - i.e. a face-on fast rotator. We find an I-band mass-to-light ratio of 4.7 -0.45 +0.32 in good agreement with previous spectral fitting results for this galaxy. Our best-fitting orbit model shows a both a bulge and a disc component, with a non-negligible counter-rotating component also evident. We find that relatively little dark matter is needed to model this galaxy, with an inferred dark mass fraction of just (7.1 -7.1 +8.1 ) per cent within one half-light radius.

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