Classification of Radio Sources Through Self-Supervised Learning

Abstract: The morphology of radio galaxies is indicative, for instance, of their interaction with their surroundings. Since modern radio surveys contain a large number of radio sources that will be impossible to analyse and classify manually, it is important to develop automatic schemes. Unlike other fields, which benefit from established theoretical frameworks and simulations, for radio galaxies there are no such comprehensive models, posing unique challenges for data analysis. In this study, we investigate the classification of radio galaxies from the LOFAR Two-meter Sky Survey Data Release 2 (LoTSS-DR2) using self-supervised learning. Our classification strategy involves three main steps: (i) self-supervised pre-training; (ii) fine-tuning using a labelled subsample created from the learned representations; and (iii) final classification of the selected unlabelled sample. To enhance morphological information in the representations, we developed an additional random augmentation. Our results demonstrate that the learned representations contain rich morphological information, enabling the creation of a labelled subsample that effectively captures the morphological diversity within the unlabelled sample. Additionally, the classification of the unlabelled sample into 12 morphological classes yields robust class probabilities. We successfully demonstrate that a subset of radio galaxies from LoTSS-DR2, encompassing diverse morphologies, can be classified using self-supervised learning. The methodology developed here bridges the gap left by the absence of simulations and theoretical models, offering a framework that can readily be applied to astronomical image analyses in other wavebands.