Galaxy formation and evolution

Galaxy Zoo and SpArcFiRe: Constraints on spiral arm formation mechanisms from spiral arm number and pitch angles

Monthly Notices of the Royal Astronomical Society Oxford University Press 472:2 (2017) 2263-2279

Authors:

RE Hart, SP Bamford, WB Hayes, CN Cardamone, WC Keel, Sandor J Kruk, Christopher Lintott, KL Masters, BD Simmons, RJ Smethurst

Abstract:

In this paper we study the morphological properties of spiral galaxies, including measurements of spiral arm number and pitch angle. Using Galaxy Zoo 2, a stellar mass-complete sample of 6,222 SDSS spiral galaxies is selected. We use the machine vision algorithm SpArcFiRe to identify spiral arm features and measure their associated geometries. A support vector machine classifier is employed to identify reliable spiral features, with which we are able to estimate pitch angles for half of our sample. We use these machine measurements to calibrate visual estimates of arm tightness, and hence estimate pitch angles for our entire sample. The properties of spiral arms are compared with respect to various galaxy properties. The star formation properties of galaxies vary significantly with arm number, but not pitch angle. We find that galaxies hosting strong bars have spiral arms substantially (4-6) looser than unbarred galaxies. Accounting for this, spiral arms associated with many-arm structures are looser (by 2) than those in two-arm galaxies. In contrast to this average trend, galaxies with greater bulge-to-total stellar mass ratios display both fewer and looser spiral arms. This effect is primarily driven by the galaxy disc, such that galaxies with more massive discs contain more spiral arms with tighter pitch angles. This implies that galaxy central mass concentration is not the dominant cause of pitch angle and arm number variations between galaxies, which in turn suggests that not all spiral arms are governed by classical density waves or modal theories.

Modelling the luminosities and sizes of radio sources: radio luminosity function at z = 6

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 469:4 (2017) 4083-4094

Authors:

A Saxena, HJA Röttgering, EE Rigby

Galaxy Formation through Filamentary Accretion at z = 6.1

The Astrophysical Journal American Astronomical Society 845:2 (2017) 175

Authors:

GC Jones, CJ Willott, CL Carilli, A Ferrara, R Wang, J Wagg

Gas Dynamics of a Luminous z = 6.13 Quasar ULAS J1319+0950 Revealed by ALMA High-resolution Observations

The Astrophysical Journal American Astronomical Society 845:2 (2017) 138

Authors:

Yali Shao, Ran Wang, Gareth C Jones, Chris L Carilli, Fabian Walter, Xiaohui Fan, Dominik A Riechers, Frank Bertoldi, Jeff Wagg, Michael A Strauss, Alain Omont, Pierre Cox, Linhua Jiang, Desika Narayanan, Karl M Menten

Calibrating photometric redshifts with intensity mapping observations

Physical Review D American Physical Society 96:4 (2017) 043515

Authors:

David Alonso, Pedro G Ferreira, Matthew Jarvis, K Moodley

Abstract:

Imaging surveys of galaxies will have a high number density and angular resolution yet a poor redshift precision. Intensity maps of neutral hydrogen will have accurate redshift resolution yet will not resolve individual sources. Using this complementarity, we show how the clustering redshifts approach proposed for spectroscopic surveys can also be used in combination with intensity mapping observations to calibrate the redshift distribution of galaxies in an imaging survey and, as a result, reduce uncertainties in photometric-redshift measurements. We show how the intensity mapping surveys to be carried out with the MeerKAT, HIRAX and SKA instruments can improve photometric-redshift uncertainties to well below the requirements of DES and LSST. The effectiveness of this method as a function of instrumental parameters, foreground subtraction and other potential systematic errors is discussed in detail.