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The tidal evolution of the Fornax dwarf spheroidal and its globular clusters

Monthly Notices of the Royal Astronomical Society, ISSN: 1365-2966, Vol: 509, Issue: 4, Page: 5330-5339
2022
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Article Description

The dark matter content of the Fornax dwarf spheroidal galaxy inferred from its kinematics is substantially lower than expected from LCDM cosmological simulations. We use N-body simulations to examine whether this may be the result of Galactic tides. We find that, despite impro v ed proper motions from the Gaia mission, the pericentric distance of Fornax remains poorly constrained, mainly because its largest velocity component is roughly antiparallel to the solar motion. Translating Fornax's proper motion into a Galactocentric velocity is, thus, sensitively dependent on Fornax's assumed distance: The observed distance uncertainty, ±8 per cent , implies pericentric distances that vary between r peri 50 and 150 kpc. Our simulations show that for r peri in the lower range of that estimate, an LCDM subhalo with maximum circular velocity V max = 40 km s-1 (or virial mass M 200 10 10 M, as expected from LCDM) would be tidally stripped to V max 23 km s-1 o v er 10 Gyr. This would reduce the dark mass within the Fornax stellar half-mass radius to about half its initial value, bringing it into agreement with observations. Tidal stripping affects mainly Fornax's dark matter halo; its stellar component is affected little, losing less than 5 per cent of its initial mass in the process. We also explore the effect of Galactic tides on the dynamical friction decay times of Fornax's population of globular clusters (GCs) and find little evidence for substantial changes, compared with models run in isolation. A population of GCs with initial orbital radii between 1 and 2 kpc is consistent with the present-day spatial distribution of Fornax GCs, despite assuming a cuspy halo. Neither the dark matter content nor the spatial distribution of GCs of Fornax seems inconsistent with a simple model where Fornax inhabits a tidally stripped cuspy cold dark matter halo.

Bibliographic Details

Alexandra Borukhovetskaya; Raphaël Errani; Julio F. Navarro; Isabel Santos-Santos; Azadeh Fattahi

Oxford University Press (OUP)

Physics and Astronomy; Earth and Planetary Sciences

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