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Cosmology from LOFAR Two-metre Sky Survey Data Release 2: angular clustering of radio sources

Catherine Hale, Dominik J. Schwarz, P. N. Best, Szymon J. Nakoneczny, David Alonso, David Bacon, L Böhme, Nitin Bhardwaj, Maciej Bilicki, S. Camera, Caroline Heneka, Morteza Pashapour-Ahmadabadi, Prabhakar Tiwari, J. Q. Zheng, K. J. Duncan, M. J. Jarvis, R. Kondapally, M. Magliocchetti, H. J. A. Röttgering, T. W. Shimwell

2023Monthly Notices of the Royal Astronomical Society12 citationsDOIOpen Access PDF

Abstract

ABSTRACT Covering $\sim 5600\, \deg ^2$ to rms sensitivities of ∼70−100 $\mu$Jy beam−1, the LOFAR Two-metre Sky Survey Data Release 2 (LoTSS-DR2) provides the largest low-frequency (∼150 MHz) radio catalogue to date, making it an excellent tool for large-area radio cosmology studies. In this work, we use LoTSS-DR2 sources to investigate the angular two-point correlation function of galaxies within the survey. We discuss systematics in the data and an improved methodology for generating random catalogues, compared to that used for LoTSS-DR1, before presenting the angular clustering for ∼900 000 sources ≥1.5 mJy and a peak signal-to-noise ≥ 7.5 across ∼80 per cent of the observed area. Using the clustering, we infer the bias assuming two evolutionary models. When fitting angular scales of $0.5 \le \theta \lt 5{^\circ }$, using a linear bias model, we find LoTSS-DR2 sources are biased tracers of the underlying matter, with a bias of $b_{\rm C}= 2.14^{+0.22}_{-0.20}$ (assuming constant bias) and $b_{\rm E}(z=0)= 1.79^{+0.15}_{-0.14}$ (for an evolving model, inversely proportional to the growth factor), corresponding to $b_{\rm E}= 2.81^{+0.24}_{-0.22}$ at the median redshift of our sample, assuming the LoTSS Deep Fields redshift distribution is representative of our data. This reduces to $b_{\rm C}= 2.02^{+0.17}_{-0.16}$ and $b_{\rm E}(z=0)= 1.67^{+0.12}_{-0.12}$ when allowing preferential redshift distributions from the Deep Fields to model our data. Whilst the clustering amplitude is slightly lower than LoTSS-DR1 (≥2 mJy), our study benefits from larger samples and improved redshift estimates.

Topics & Concepts

PhysicsAstrophysicsRedshiftLOFARCosmologySkyGalaxyAngular diameterSource countsRadio telescopeStarsRadio Astronomy Observations and TechnologyGalaxies: Formation, Evolution, PhenomenaAstrophysics and Cosmic Phenomena
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