The kinematic status and mass content of the Sculptor dwarf spheroidal galaxy

TL;DR

This study uses spectroscopic data to analyze the kinematic properties and dark matter distribution of the Sculptor dwarf spheroidal galaxy, revealing a possible intrinsic rotation and favoring a cored dark matter halo model.

Contribution

First detailed kinematic analysis of Sculptor that distinguishes stellar components to constrain its dark matter profile and rotation signature.

Findings

Detected a velocity gradient indicating possible rotation.

Best-fit dark matter profile is a cored halo with specific parameters.

Mass-to-light ratio within 1.8 kpc is approximately 158.

Abstract

We present VLT/FLAMES spectroscopic observations (R~6500) in the CaII triplet region for 470 probable kinematic members of the Sculptor (Scl) dwarf spheroidal galaxy. The accurate velocities (+- 2 km/s) and large area coverage of Scl allow us to measure a velocity gradient of 7.6_{-2.2}^{+3.0} km/s deg^{-1} along the Scl projected major axis, likely a signature of intrinsic rotation. We also use our kinematic data to measure the mass distribution within this system. By considering independently the kinematics of the distinct stellar components known to be present in Scl, we are able to relieve known degeneracies, and find that the observed velocity dispersion profiles are best fitted by a cored dark matter halo with core radius r_c= 0.5 kpc and mass enclosed within the last measured point M(< 1.8 kpc)=3.4 +- 0.7 x 10^8 M_sun, assuming an increasingly radially anisotropic velocity ellipsoid. This results in a mass-to-light ratio of 158+-33 (M/L)_sun inside 1.8 kpc. An NFW profile with concentration c=20 and mass M(< 1.8 kpc) = 2.2_{-0.7}^{+1.0} x 10^8 M_sun is also statistically consistent with the observations, but it tends to yield poorer fits for the metal rich stars.