http://arxiv.org/abs/1904.10471
The faintness of satellite systems in galaxy groups has contributed to the widely discussed “missing satellite” and “too big to fail” issues. Using techniques based on Tremaine & Richstone (1977), we show that there is no problem with the luminosity function computed from modern codes per se, but that the gap between first and second brightest systems is too big {\it given} the luminosity function, that the same large gap is found in modern, large scale baryonic $\Lambda$CDM simulations such as EAGLE and IllustrisTNG, is even greater in dark matter only simulations, and finally, that this is most likely due to gravitationally induced merging caused by classical dynamical friction. Quantitatively the gap is larger in the computed simulations than in the randomized ones by $1.79 \pm 1.04$, $1.51 \pm 0.93$, $3.43 \pm 1.44$ and $3.33 \pm 1.35$ magnitudes in the EAGLE, IllustrisTNG, and dark matter only simulations of EAGLE and IllustrisTNG respectively. Furthermore the anomalous gaps in the simulated systems are even larger than in the real data by over half a magnitude and are still larger in the dark matter only simulations. Briefly stated, $\Lambda$CDM does not have a problem with an absence of “too big to fail” galaxies. Statistically significant large gaps between first and second brightest galaxies are to be expected.
J. Ostriker, E. Choi, A. Chow, et. al.
Thu, 25 Apr 19
38/58
Comments: 9 pages, 8 figures, submitted to ApJ