http://arxiv.org/abs/2305.12045
Stellar streams form through the tidal disruption of satellite galaxies or globular clusters orbiting a host galaxy. Globular cluster streams are of particular interest since they are thin (dynamically cold) and therefore sensitive to perturbations from low-mass subhalos. Since the subhalo mass function differs depending on the dark matter composition, these gaps can provide unique constraints on dark matter models. However, current samples are limited to the Milky Way. With its large field of view, deep imaging sensitivity, and high angular resolution, the upcoming {\it Nancy Grace Roman Space Telescope} ({\it Roman}); presents a unique opportunity to significantly increase the number of observed streams and gaps. This paper presents a first exploration of the prospects for detecting gaps in streams in M31 and other nearby galaxies with resolved stars. We simulate the formation of gaps in a Palomar-5-like stream and generate mock observations of these gaps together with background stars in M31 and foreground Milky Way stellar fields. We assess {\it Roman}’s ability to detect gaps out to 10~Mpc through visual inspection and with the gap-finding tool {\it FindTheGap}. We conclude that gaps of $\approx 1.5$~kpc in streams that are created from subhalos of masses $\geq5 \times 10^6$ {\Msun} are detectable within a 2–3~Mpc volume in exposures of 1000s–1~hour. This volume contains $\approx$ 200 galaxies. Large samples of stream gaps in external galaxies will open up a new era of statistical analyses of gap characteristics in stellar streams and help constrain dark matter models.
C. Aganze, S. Pearson, T. Starkenburg, et. al.
Tue, 23 May 23
77/77
Comments: Submitted to ApJ. Comments are welcome!