English

Bulge formation through disc instability -- I

Astrophysics of Galaxies 2020-12-09 v1

Abstract

We use simulations to study the growth of a pseudobulge in an isolated thin exponential stellar disc embedded in a static spherical halo. We observe a transition from later to earlier morphological types and an increase in bar prominence for higher disc-to-halo mass ratios, for lower disc-to-halo size ratios, and for lower halo concentrations. We compute bulge-to-total stellar mass ratios B/TB/T by fitting a two-component S\'ersic-exponential surface-density distribution. The final B/TB/T is strongly related to the disc's fractional contribution fdf_{\rm d} to the total gravitational acceleration at the optical radius. The formula B/T=0.5f1.8B/T=0.5\,f_{\rm }^{1.8} fits the simulations to an accuracy of 30%30\%, is consistent with observational measurements of B/T and f_d as a function of luminosity, and reproduces the observed relation between B/TB/T and stellar mass when incorporated into the GalICS~2.0 semi-analytic model of galaxy formation.

Keywords

Cite

@article{arxiv.2011.11629,
  title  = {Bulge formation through disc instability -- I},
  author = {Timothée Devergne and Andrea Cattaneo and Frédéric Bournaud and Ioanna Koutsouridou and Audrey Winter and Paola Dimauro and Gary A. Mamon and William Wacher and Margot Varin},
  journal= {arXiv preprint arXiv:2011.11629},
  year   = {2020}
}

Comments

19 pages, 11 figures, accepted for publication in Astronomy & Astrophysics

R2 v1 2026-06-23T20:27:16.421Z