Galaxy formation and evolution

Perturbations and the future conformal boundary

PHYSICAL REVIEW D American Physical Society (APS) 105:8 (2022) 83514

Authors:

An Lasenby, Wj Handley, Dj Bartlett, Cs Negreanu

Abstract:

The concordance model of cosmology predicts a universe which finishes in a finite amount of conformal time at a future conformal boundary. We show that for particular cases we study, the background variables and perturbations may be analytically continued beyond this boundary and that the "end of the universe"is not necessarily the end of their physical development. Remarkably, these theoretical considerations of the end of the universe might have observable consequences today: perturbation modes consistent with these boundary conditions have a quantized power spectrum which may be relevant to features seen in the large scale cosmic microwave background. Mathematically these cosmological models may either be interpreted as a palindromic universe mirrored in time, a reflecting boundary condition, or a double cover, but are identical with respect to their observational predictions and stand in contrast to the predictions of conformal cyclic cosmologies.

Radio Galaxy Zoo: Using semi-supervised learning to leverage large unlabelled data-sets for radio galaxy classification under data-set shift

ArXiv 2204.08816 (2022)

Authors:

Inigo V Slijepcevic, Anna MM Scaife, Mike Walmsley, Micah Bowles, Ivy Wong, Stanislav S Shabala, Hongming Tang

A new look at local ultraluminous infrared galaxies: the atlas and radiative transfer models of their complex physics

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 512:4 (2022) 5183-5213

Authors:

A Efstathiou, D Farrah, J Afonso, DL Clements, E González-Alfonso, M Lacy, S Oliver, V Papadopoulou Lesta, C Pearson, D Rigopoulou, M Rowan-Robinson, HWW Spoon, A Verma, L Wang

Hybrid photometric redshifts for sources in the COSMOS and XMM-LSS fields

Monthly Notices of the Royal Astronomical Society Oxford University Press 513:3 (2022) 3719-3733

Authors:

Pw Hatfield, Mj Jarvis, N Adams, Raa Bowler, B Häußler, Kj Duncan

Abstract:

In this paper we present photometric redshifts for 2.7 million galaxies in the XMM-LSS and COSMOS fields, both with rich optical and near-infrared data from VISTA and HyperSuprimeCam. Both template fitting (using galaxy and Active Galactic Nuclei templates within LePhare) and machine learning (using GPz) methods are run on the aperture photometry of sources selected in the Ks-band. The resulting predictions are then combined using a Hierarchical Bayesian model, to produce consensus photometric redshift point estimates and probability distribution functions that outperform each method individually. Our point estimates have a root mean square error of ∼0.08 − 0.09, and an outlier fraction of ∼3 − 4 percent when compared to spectroscopic redshifts. We also compare our results to the COSMOS2020 photometric redshifts, which contains fewer sources, but had access to a larger number of bands and greater wavelength coverage, finding that comparable photo-z quality can be achieved (for bright and intermediate luminosity sources where a direct comparison can be made). Our resulting redshifts represent the most accurate set of photometric redshifts (for a catalogue this large) for these deep multi-square degree multi-wavelength fields to date.

LyMAS reloaded: improving the predictions of the large-scale Lyman-α forest statistics from dark matter density and velocity fields

(2022)

Authors:

S Peirani, S Prunet, S Colombi, C Pichon, Dh Weinberg, C Laigle, G Lavaux, Y Dubois, J Devriendt