X-ray Emission From Hot Gas in Galaxy Groups and Clusters in Simba

Abstract

We examine X-ray scaling relations for massive halos (M500>1012.3M) in the Simba galaxy formation simulation. The X-ray weighted luminosity, LX vs. M500 has power-law slopes ≈53 and ≈83 above and below 1013.5 M, deviating from the self-similarity increasingly to low masses. TX-M500 is self-similar above this mass, and slightly shallower below it. Comparing Simba to observed TX scalings, we find that LX, LX-weighted [Fe/H], and entropies at 0.1 R200 (S0.1) and R500 (S500) all match reasonably well. S500-TX is consistent with self-similar expectations, but S0.1-TX is shallower at lower TX, suggesting the dominant form of heating moves from gravitational shocks in the outskirts to non-gravitational feedback in the cores of smaller groups. Simba matches observations of LX versus central galaxy stellar mass M*, predicting the additional trend that star-forming galaxies have higher LX(M*). The electron density profiles for M500>1014M halos show a 0.1R200 core, but at lower masses the profiles are flat at all radii. TX profiles are flat for M500<1013M, and increasingly centrally peaked with mass. The resulting entropy profiles are centrally depressed for the highest and lowest mass halos but flatter for intermediate-mass halos, with S core≈200-400 keV cm2. Simba's [Fe/H] profile matches observations in the core but over-predicts at larger radii, suggesting overly widespread metal distribution. We show that Simba's bipolar jet AGN feedback is most responsible for increasingly evacuating lower-mass halos, thereby suppressing core densities and raising core entropies to improve agreement with X-ray scaling relations.