Disc instability and bar formation: a detailed view from the IllustrisTNG

David Izquierdo-Villalba, Silvia Bonoli, Yetli Rosas-Guevara, Volker Springel, Simon D. M. White, Tommaso Zana, Massimo Dotti, Daniele Spinoso, Matteo Bonetti, Alessandro Lupi

Published 2022-03-15Version 1

Assessing in a simple manner the stability of disc galaxies against bar formation is a considerable challenge, especially for semi-analytic models of galaxy formation. Thus far, the standard approach to address this has been the analytical criterion originally proposed by Efstathiou, Lake, and Negroponte (ELN-criterion), although several works have questioned its reliability. Here we assess the ELN-criterion performance by making use of z=0 barred and unbarred disc galaxy samples extracted from TNG100 and TNG50 cosmological hydrodynamical simulations. We first study the evolution of these two populations, finding that barred galaxies generally assemble earlier, are more stellar dominated in the central region and their discs are more massive and compact than those of unbarred galaxies. We then apply the ELN-criterion to the two populations, finding that it is capable of correctly identifying 75% and 80% of the barred and unbarred galaxies, respectively. We find that barred galaxies not correctly identified by the criterion are galaxies with generally more extended discs, higher spin values and with bars assembled at later times with respect to the average of the barred sample. We also find an indication that the bars in these galaxies developed during the interaction with a close neighbor (external trigger) rather than being the consequence of the secular growth of the disc. On the other hand, we find that the unbarred galaxies that the ELN-criterion misclassifies as barred, have stellar discs similar to those of barred galaxies but are less stellar dominated in the central region, possibly because of their late formation time. Taken all together, our results indicate that the ELN-criterion can robustly describe the stability of most disc galaxies secularly evolving, whereas additional environmental criteria should be possibly considered to account for interaction-induced bar formation.