Early-type galaxy density profiles from IllustrisTNG: I. Galaxy correlations and the impact of baryons

Abstract

We explore the isothermal total density profiles of early-type galaxies (ETGs) in the IllustrisTNG simulation. For the selected 559 ETGs at z = 0 with stellar mass 1010.7M ≤slant M ≤slant 1011.9M, the total power-law slope has a mean of γ = 2.011 0.007 and a scatter of σγ = 0.171 over the radial range 0.4 to 4 times the stellar half mass radius. Several correlations between γ and galactic properties including stellar mass, effective radius, stellar surface density, central velocity dispersion, central dark matter fraction and in-situ-formed stellar mass ratio are compared to observations and other simulations, revealing that IllustrisTNG reproduces many correlation trends, and in particular, γ is almost constant with redshift below z = 2. Through analyzing IllustrisTNG model variations we show that black hole kinetic winds are crucial to lowering γ and matching observed galaxy correlations. The effects of stellar winds on γ are subdominant compared to AGN feedback, and differ due to the presence of AGN feedback from previous works. The density profiles of the ETG dark matter halos are well-described by steeper-than-NFW profiles, and they are steeper in the full physics (FP) run than their counterparts in the dark matter only (DMO) run. Their inner density slopes anti-correlates (remain constant) with the halo mass in the FP (DMO) run, and anti-correlates with the halo concentration parameter c200 in both types of runs. The dark matter halos of low-mass ETGs are contracted whereas high-mass ETGs are expanded, suggesting that variations in the total density profile occur through the different halo responses to baryons.