Astronomy and Astrophysics – Astrophysics – Cosmology and Extragalactic Astrophysics
Scientific paper
2009-12-22
Astronomy and Astrophysics
Astrophysics
Cosmology and Extragalactic Astrophysics
Accepted by ApJ after referee's revision (abstract abridged)
Scientific paper
We present numerical simulations aimed at exploring the effects of varying the sub-grid physics parameters on the evolution and the properties of the galaxy formed in a low-mass dark matter halo (~7 times 10^10 Msun/h at redshift z=0). The simulations are run within a cosmological setting with a nominal resolution of 218 pc comoving and are stopped at z = 0.43. In all of our simulations, an extended old/intermediate-age stellar halo and a more compact younger stellar disk are formed. We found that a non negligible fraction of the halo stars are formed in situ in a spheroidal distribution. Changes in the sub-grid physics parameters affect significantly and in a complex way the evolution and properties of the galaxy: (i) Lower threshold densities nsf produce larger stellar effective radii Re, less peaked circular velocity curves V_c(R), and greater amounts of low-density and hot gas in the disk mid-plane; (ii) When stellar feedback is modeled by temporarily switching off radiative cooling in the star forming regions, Re increases (by a factor of ~ 2 in our particular model), the circular velocity curve becomes flatter, and a complex multi-phase gaseous disk structure develops; (iii) A more efficient local conversion of gas mass to stars, measured by a stellar particle mass distribution biased toward larger values, increases the strength of the feedback energy injection -driving outflows and inducing burstier SF histories; iv) If feedback is too strong, gas loss by galactic outflows -which are easier to produce in low-mass galaxies- interrupts SF, whose history becomes episodic. The simulations exhibit two important shortcomings: the baryon fractions are higher, and the specific SF rates are much smaller, than observationally inferred values for redshifts ~ 0.4-1.
Avila-Reese Vladimir
Ceverino Daniel
Colin Pedro
Valenzuela Octavio
Vázquez-Semadeni Enrique
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