Galaxy formation and evolution

Bursts from Space: MeerKAT – the first citizen science project dedicated to commensal radio transients

Monthly Notices of the Royal Astronomical Society Oxford University Press 523:2 (2023) 2219-2235

Authors:

Alex Andersson, chris Lintott, rob Fender, joe Bright, francesco Carotenuto, ian Heywood, Lauren Rhodes, Sara Motta, David Williams

Abstract:

The newest generation of radio telescopes is able to survey large areas with high sensitivity and cadence, producing data volumes that require new methods to better understand the transient sky. Here, we describe the results from the first citizen science project dedicated to commensal radio transients, using data from the MeerKAT telescope with weekly cadence. Bursts from Space: MeerKAT was launched late in 2021 and received ∼89 000 classifications from over 1000 volunteers in 3 months. Our volunteers discovered 142 new variable sources which, along with the known transients in our fields, allowed us to estimate that at least 2.1 per cent of radio sources are varying at 1.28 GHz at the sampled cadence and sensitivity, in line with previous work. We provide the full catalogue of these sources, the largest of candidate radio variables to date. Transient sources found with archival counterparts include a pulsar (B1845-01) and an OH maser star (OH 30.1–0.7), in addition to the recovery of known stellar flares and X-ray binary jets in our observations. Data from the MeerLICHT optical telescope, along with estimates of long time-scale variability induced by scintillation, imply that the majority of the new variables are active galactic nuclei. This tells us that citizen scientists can discover phenomena varying on time-scales from weeks to several years. The success both in terms of volunteer engagement and scientific merit warrants the continued development of the project, while we use the classifications from volunteers to develop machine learning techniques for finding transients.

JWST NIRCam + NIRSpec: interstellar medium and stellar populations of young galaxies with rising star formation and evolving gas reservoirs

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 522:4 (2023) 6236-6249

Authors:

Sandro Tacchella, Benjamin D Johnson, Brant E Robertson, Stefano Carniani, Francesco D’Eugenio, Nimisha Kumari, Roberto Maiolino, Erica J Nelson, Katherine A Suess, Hannah Übler, Christina C Williams, Alabi Adebusola, Stacey Alberts, Santiago Arribas, Rachana Bhatawdekar, Nina Bonaventura, Rebecca AA Bowler, Andrew J Bunker, Alex J Cameron, Mirko Curti, Eiichi Egami, Daniel J Eisenstein, Brenda Frye, Kevin Hainline, Jakob M Helton, Zhiyuan Ji, Tobias J Looser, Jianwei Lyu, Michele Perna, Timothy Rawle, George Rieke, Marcia Rieke, Aayush Saxena, Lester Sandles, Irene Shivaei, Charlotte Simmonds, Fengwu Sun, Christopher NA Willmer, Chris J Willott, Joris Witstok

Surveying nearby brown dwarfs with HGCA: direct imaging discovery of a faint, high-mass brown dwarf orbiting HD 176535 A

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 522:4 (2023) 5622-5637

Authors:

Yiting Li, Timothy D Brandt, G Mirek Brandt, Qier An, Kyle Franson, Trent J Dupuy, Minghan Chen, Rachel Bowens-Rubin, Briley L Lewis, Brendan P Bowler, Aidan Gibbs, Rocio Kiman, Jacqueline Faherty, Thayne Currie, Rebecca Jensen-Clem, Hengyue Zhang, Ezequiel Contreras-Martinez, Michael P Fitzgerald, Benjamin A Mazin, Maxwell Millar-Blanchaer

A radio-jet driven outflow in the Seyfert 2 galaxy NGC 2110?

(2023)

Authors:

L Peralta de Arriba, A Alonso-Herrero, S García-Burillo, I García-Bernete, M Villar-Martín, B García-Lorenzo, R Davies, DJ Rosario, SF Hönig, NA Levenson, C Packham, C Ramos Almeida, M Pereira-Santaella, A Audibert, E Bellocchi, EKS Hicks, A Labiano, C Ricci, D Rigopoulou

Inferring dark matter halo properties for H i-selected galaxies

Monthly Notices of the Royal Astronomical Society Oxford University Press 526:4 (2023) 5861-5882

Authors:

Tariq Yasin, Harry Desmond, Julien Devriendt, Adrianne Slyz

Abstract:

We set constraints on the dark matter halo mass and concentration of ∼22 000 individual galaxies visible both in H I (from the ALFALFA survey) and optical light (from the Sloan Digital Sky Survey). This is achieved by combining two Bayesian models, one for the H I line width as a function of the stellar and neutral hydrogen mass distributions in a galaxy using kinematic modelling, and the other for the galaxy’s total baryonic mass using the technique of inverse subhalo abundance matching. We hence quantify the constraining power on halo properties of spectroscopic and photometric observations, and assess their consistency. We find good agreement between the two sets of posteriors, although there is a sizeable population of low-line width galaxies that favour significantly smaller dynamical masses than expected from abundance matching (especially for cuspy halo profiles). Abundance matching provides significantly more stringent bounds on halo properties than the H I line width, even with a mass–concentration prior included, although combining the two provides a mean gain of 40 per cent for the sample when fitting an NFW profile. We also use our kinematic posteriors to construct a baryonic mass–halo mass relation, which we find to be near power law, and with a somewhat shallower slope than expected from abundance matching. Our method demonstrates the potential of combining photometric and spectroscopic observations to precisely map out the dark matter distribution at the galaxy scale using upcoming H I surveys such as the SKA.