Systematic analysis of jellyfish galaxy candidates in Fornax, Antlia, and Hydra from the S-PLUS survey: a self-supervised visual identification aid

Gondhalekar, Yash; Chies-Santos, Ana L.; de Souza, Rafael S.; Queiroz, Carolina; Lopes, Amanda R.; Ferrari, Fabricio; Azevedo, Gabriel M.; Monteiro-Pereira, Hellen; Overzier, Roderik; Smith Castelli, Analía V.; Jaffé, Yara L.; Haack, Rodrigo F.; Rahna, P. T.; Shen, Shiyin; Mu, Zihao; Lima-Dias, Ciria; Barbosa, Carlos E.; Oliveira Schwarz, Gustavo B.; Riffel, Rogério; Jimenez-Teja, Yolanda; Grossi, Marco; Mendes de Oliveira, Claudia L.; Schoenell, William; Ribeiro, Thiago; Kanaan, Antonio
Bibliographical reference

Monthly Notices of the Royal Astronomical Society

Advertised on:
7
2024
Number of authors
25
IAC number of authors
1
Citations
0
Refereed citations
0
Description
We study 51 jellyfish galaxy candidates in the Fornax, Antlia, and Hydra clusters. These candidates are identified using the JClass scheme based on the visual classification of wide-field, twelve-band optical images obtained from the Southern Photometric Local Universe Survey. A comprehensive astrophysical analysis of the jellyfish (JClass > 0), non-jellyfish (JClass = 0), and independently organized control samples is undertaken. We develop a semi-automated pipeline using self-supervised learning and similarity search to detect jellyfish galaxies. The proposed framework is designed to assist visual classifiers by providing more reliable JClasses for galaxies. We find that jellyfish candidates exhibit a lower Gini coefficient, higher entropy, and a lower 2D Sérsic index as the jellyfish features in these galaxies become more pronounced. Jellyfish candidates show elevated star formation rates (including contributions from the main body and tails) by $\sim$1.75 dex, suggesting a significant increase in the SFR caused by the ram-pressure stripping phenomenon. Galaxies in the Antlia and Fornax clusters preferentially fall towards the cluster's centre, whereas only a mild preference is observed for Hydra galaxies. Our self-supervised pipeline, applied in visually challenging cases, offers two main advantages: it reduces human visual biases and scales effectively for large data sets. This versatile framework promises substantial enhancements in morphology studies for future galaxy image surveys.
Type