Stellar halos tracing the assembly of ultra-faint dwarf galaxies
Abstract
[Abridged]Ultra-faint dwarfs (UFDs) are expected to be the relics of the earliest galaxies forming in the Universe. Observations show the presence of a stellar halo around them, which can give precious insights into the evolution of UFDs. This work investigates how merger properties impact the formation of stellar halos around UFDs, focusing on Tucana II, the most promising UFD assembled through mergers. We develop N-body simulations of isolated mergers between two UFDs with 1M stellar resolution. We build a suite of simulations by varying: i) the merger mass ratio, M1/M2, the specific ii) kinetic energy, k, and iii) angular momentum, l, iv) the dark-to-stellar mass ratio, MDM/M*, of the progenitors and iv) their stellar size, R1/2. We use a neural network to explore the parameter space, emulating the properties of the "post-merger" UFD by quantifying the half-mass radius (R*) and the fraction of stars at radii >5R* (f5). Our principal component analysis clearly shows that f5 (R*) is primarily determined by M1/M2 (R1/2), with R1/2 (M1/M2) playing a secondary role. Both f5 and R* show almost no dependence on k, l, and MDM/M* in the explored range. Using our emulator, we find that to form the stellar halo observed in Tucana II, i.e. f5=105\% and R*=12030pc, we need M1/M2=8-3+4 and R1/2=97+25-18pc. Such findings are corroborated by the consistency (2=0.5-2) between the stellar density profile observed and those of simulations having M1/M2 and R1/2 close to the emulator's predictions. Ongoing and planned spectroscopic surveys will greatly increase the statistics of observed stars and thus stellar halos in UFDs. By interpreting such observations with our model, we will provide new insights into the assembly history of UFDs and thus on the early galaxy formation process.
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