Galaxy formation and evolution

Star Formation in Nearby Early-Type Galaxies: The Radio Continuum Perspective

(2016)

Authors:

Kristina Nyland, Lisa M Young, Joan M Wrobel, Timothy A Davis, Martin Bureau, Katherine Alatalo, Raffaella Morganti, Pierre-Alain Duc, PT de Zeeuw, Richard M McDermid, Alison F Crocker, Tom Oosterloo

Molecular Gas Kinematics and Line Diagnostics in Early-type Galaxies: NGC4710 and NGC5866

(2016)

Authors:

Selcuk Topal, Martin Bureau, Timothy A Davis, Melanie Krips, Lisa M Young, Alison F Crocker

Galaxy Zoo: Evidence for rapid, recent quenching within a population of AGN host galaxies

Monthly Notices of the Royal Astronomical Society Oxford University Press 463:3 (2016) 2986-2996

Authors:

Rebecca J Smethurst, Christopher Lintott, Brooke D Simmons, Kevin Schawinski, Steven P Bamford, Carolin N Cardamone, Sandor I Kruk, Karen L Masters, Claudia M Urry, Kyle W Willett, O Ivy Wong

Abstract:

We present a population study of the star formation history of 1244 Type 2 AGN host galaxies, compared to 6107 inactive galaxies. A Bayesian method is used to determine individual galaxy star formation histories, which are then collated to visualise the distribution for quenching and quenched galaxies within each population. We find evidence for some of the Type 2 AGN host galaxies having undergone a rapid drop in their star formation rate within the last 2 Gyr. AGN feedback is therefore important at least for this population of galaxies. This result is not seen for the quenching and quenched inactive galaxies whose star formation histories are dominated by the effects of downsizing at earlier epochs, a secondary effect for the AGN host galaxies. We show that histories of rapid quenching cannot account fully for the quenching of all the star formation in a galaxy's lifetime across the population of quenched AGN host galaxies, and that histories of slower quenching, attributed to secular (non-violent) evolution, are also key in their evolution. This is in agreement with recent results showing both merger-driven and non-merger processes are contributing to the co-evolution of galaxies and supermassive black holes. The availability of gas in the reservoirs of a galaxy, and its ability to be replenished, appear to be the key drivers behind this co-evolution.

Molecular gas kinematics and line diagnostics in early-type galaxies: NGC4710 & NGC5866

Monthly Notices of the Royal Astronomical Society Oxford University Press 463:4 (2016) 4121-4152

Authors:

Martin Bureau, Selçuk Topal, Timothy A Davis, Melanie Krips, Lisa M Young, Alison F Crocker

Abstract:

We present interferometric observations of CO lines (12CO(1-0, 2-1) and 13CO(1-0, 2-1)) and dense gas tracers (HCN(1-0), HCO+ (1-0), HNC(1-0) and HNCO(4-3)) in two nearby edgeon barred lenticular galaxies, NGC 4710 and NGC 5866, with most of the gas concentrated in a nuclear disc and an inner ring in each galaxy. We probe the physical conditions of a two-component molecular interstellar medium in each galaxy and each kinematic component by using molecular line ratio diagnostics in three complementary ways. First, we measure the ratios of the position-velocity diagrams of different lines, second we measure the ratios of each kinematic component’s integrated line intensities as a function of projected position, and third we model these line ratios using a non-local thermodynamic equilibrium radiative transfer code. Overall, the nuclear discs appear to have a tenuous molecular gas component that is hotter, optically thinner and with a larger dense gas fraction than that in the inner rings, suggesting more dense clumps immersed in a hotter more diffuse molecular medium. This is consistent with evidence that the physical conditions in the nuclear discs are similar to those in photo-dissociation regions. A similar picture emerges when comparing the observed molecular line ratios with those of other galaxy types. The physical conditions of the molecular gas in the nuclear discs of NGC 4710 and NGC 5866 thus appear intermediate between those of spiral galaxies and starbursts, while the star formation in their inner rings is even milder.

Star formation in nearby early-type galaxies: The radio continuum perspective

Monthly Notices of the Royal Astronomical Society Oxford University Press 464:1 (2016) 1029-1064

Authors:

Martin Bureau, Kristina Nyland, Lisa M Young, Joan M Wrobel, Timothy A Davis, Katherine Alatalo, Raffaella Morganti, Pierre-Alain Duc, P Tim de Zeeuw, Richard M McDermid, Alison F Crocker, Tom Oosterloo

Abstract:

We present a 1.4 GHz Karl G. Jansky Very Large Array (VLA) study of a sample of early-type galaxies (ETGs) from the volume- and magnitude-limited ATLAS3D survey. The radio morphologies of these ETGs at a resolution of θFWHM ≈ 5'' are diverse and include sources that are compact on sub-kpc scales, resolved structures similar to those seen in star-forming spiral galaxies, and kpc-scale radio jets/lobes associated with active nuclei. We compare the 1.4 GHz, molecular gas, and infrared (IR) properties of these ETGs. The most CO-rich ATLAS3D ETGs have radio luminosities consistent with extrapolations from H2 mass-derived star formation rates from studies of late-type galaxies. These ETGs also follow the radio-IR correlation. However, ETGs with lower molecular gas masses tend to have less radio emission relative to their CO and IR emission compared to spirals. The fraction of galaxies in our sample with high IR-radio ratios is much higher than in previous studies, and cannot be explained by a systematic underestimation of the radio luminosity due to the presence extended, low-surface-brightness emission that was resolved-out in our VLA observations. In addition, we find that the high IR-radio ratios tend to occur at low IR luminosities, but are not associated with low dynamical mass or metallicity. Thus, we have identified a population of ETGs that have a genuine shortfall of radio emission relative to both their IR and molecular gas emission. A number of mechanisms may conspire to cause this radio deficiency, including a bottom-heavy stellar initial mass function, weak magnetic fields, a higher prevalence of environmental effects compared to spirals and enhanced cosmic ray losses