Galaxy formation and evolution

The multiwavelength properties of red QSOs: Evidence for dusty winds as the origin of QSO reddening

Astronomy & Astrophysics EDP Sciences 649 (2021) a102

Authors:

G Calistro Rivera, DM Alexander, DJ Rosario, CM Harrison, M Stalevski, S Rakshit, VA Fawcett, LK Morabito, L Klindt, PN Best, M Bonato, RAA Bowler, T Costa, R Kondapally

Particle acceleration in radio galaxies with flickering jets: GeV electrons to ultrahigh energy cosmic rays

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 503:4 (2021) 5948-5964

Authors:

James H Matthews, Andrew M Taylor

Resolved Neutral Outflow from a Lensed Dusty Star Forming Galaxy at z=2.09

(2021)

Authors:

Kirsty M Butler, Paul P van der Werf, Matus Rybak, Tiago Costa, Pierre Cox, Axel Weiß, Michał J Michałowski, Dominik A Riechers, Dimitra Rigopoulou, Lucia Marchetti, Stephen Eales, Ivan Valtchanov

The Galaxy Activity, Torus and Outflow Survey (GATOS) I. ALMA images of dusty molecular tori in Seyfert galaxies

(2021)

Authors:

S García-Burillo, A Alonso-Herrero, C Ramos Almeida, O González-Martín, F Combes, A Usero, S Hönig, M Querejeta, EKS Hicks, LK Hunt, D Rosario, R Davies, PG Boorman, AJ Bunker, L Burtscher, L Colina, T Díaz-Santos, P Gandhi, I García-Bernete, B García-Lorenzo, K Ichikawa, M Imanishi, T Izumi, A Labiano, NA Levenson, E López-Rodríguez, C Packham, M Pereira-Santaella, C Ricci, D Rigopoulou, D Rouan, T Shimizu, M Stalevski, K Wada, D Williamson

HI intensity mapping with the MIGHTEE survey: power spectrum estimates

Monthly Notices of the Royal Astronomical Society Oxford University Press 505:2 (2021) 2039-2050

Authors:

Sourabh Paul, Mario G Santos, Junaid Townsend, Matt J Jarvis, Natasha Maddox, Jordan D Collier, Bradley S Frank, Russ Taylor

Abstract:

Intensity mapping (IM) with neutral hydrogen is a promising avenue to probe the large-scale structure of the Universe. In this paper, we demonstrate that using the 64-dish MeerKAT radio telescope as a connected interferometer, it is possible to make a statistical detection of H I in the post-reionization Universe. With the MIGHTEE (MeerKAT International GHz Tiered Extragalactic Exploration) survey project observing in the L-band (856 MHz < ν < 1712 MHz, z < 0.66), we can achieve the required sensitivity to measure the H I IM power spectrum on quasi-linear scales, which will provide an important complementarity to the single-dish IM MeerKAT observations. We present a purpose-built simulation pipeline that emulates the MIGHTEE observations and forecasts the constraints that can be achieved on the H I power spectrum at z = 0.27 for k > 0.3 Mpc−1 using the foreground avoidance method. We present the power spectrum estimates with the current simulation on the COSMOS field that includes contributions from H I, noise, and point-source models constructed from the observed MIGHTEE data. The results from our visibility-based pipeline are in qualitative agreement to the already available MIGHTEE data. This paper demonstrates that MeerKAT can achieve very high sensitivity to detect H I with the full MIGHTEE survey on quasi-linear scales (signal-to-noise ratio >7 at k = 0.49 Mpc−1⁠) that are instrumental in probing cosmological quantities such as the spectral index of fluctuation, constraints on warm dark matter, the quasi-linear redshift space distortions, and the measurement of the H I content of the Universe up to z ∼ 0.5.