Exploding Satellites -- The Tidal Debris of the Ultra-Faint Dwarf Galaxy Hercules

TL;DR

This paper models Hercules as a tidally disrupted, exploding satellite on a highly eccentric orbit, revealing its debris structure and providing insights into the Milky Way's gravitational potential.

Contribution

It introduces a Bayesian and N-body simulation approach to demonstrate Hercules's tidal disruption and its implications for Galactic potential constraints.

Findings

Hercules is on a very eccentric orbit (~0.95 eccentricity).

Debris fans out nearly perpendicular to the orbit due to orbital precession.

Radial velocity spikes match observed kinematic substructures.

Abstract

The ultra-faint satellite galaxy Hercules has a strongly elongated and irregular morphology with detections of tidal features up to 1.3 deg (3 kpc) from its center. This suggests that Hercules may be dissolving under the Milky Way's gravitational influence, and hence could be a tidal stream in formation rather than a bound, dark-matter dominated satellite. Using Bayesian inference in combination with N-body simulations, we show that Hercules has to be on a very eccentric orbit (epsilon~0.95) within the Milky Way in this scenario. On such an orbit, Hercules "explodes" as a consequence of the last tidal shock at pericenter 0.5 Gyr ago. It is currently decelerating towards apocenter of its orbit with a velocity of V=157 km/s -- of which 99% is directed radially outwards. Due to differential orbital precession caused by the non-spherical nature of the Galactic potential, its debris fans out nearly perpendicular to its orbit. This explains why Hercules has an elongated shape without showing a distance gradient along its main body: it is in fact a stream that is significantly broader than it is long. In other words, it is moving perpendicular to its apparent major axis. In this scenario, there is a spike in the radial velocity profile created by the dominant debris component that formed through the last pericenter passage. This is similar to kinematic substructure that is observed in the real Hercules. Modeling a satellite on such a highly eccentric orbit is strongly dependent on the form of the Galactic potential. We therefore propose that detailed kinematic investigation of Hercules and other exploding satellite candidates can yield strong constraints on the potential of the Milky Way.