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The Nature of the Milky Way’s Stellar Halo Revealed by the Three Integrals of Motion

Daniela Carollo, Masashi Chiba

2021The Astrophysical Journal22 citationsDOIOpen Access PDF

Abstract

Abstract We developed a new selection method of halo stars in the phase-space distribution defined by the three integrals of motion in an axisymmetric Galactic potential ( E , L z , I 3 ), where I 3 is the third integral of motion. The method is used to explore the general chemodynamical structure of the halo based on stellar samples from SDSS-SEGUE DR7 and APOGEE DR16, matched with Gaia DR2. We found the following. (a) Halo stars can be separated from disk stars by selecting over (1) 0 < L z < 1500 kpc km s −1 , kpc km s −1 (orbital angle θ orb > 15–20 deg), and E < −1.5 × 10 5 km 2 s −2 , and (2) L z < 0 kpc km s −1 . These selection criteria are free from kinematical biases introduced by the simple high-velocity cuts adopted in recent literature. (b) The averaged, or coarse-grained , halo phase-space distribution shows a monotonic, exponential decrease with increasing E and I 3 like the Michie–Bodenheimer models. (c) The inner stellar halo described in Carollo et al. is found to comprise a combination of Gaia Enceladus debris (GE), lowest- E stars (likely in situ stars), and metal-poor prograde stars missed by the high-velocity cut selection. (d) The very metal-poor outer halo, ([Fe/H] < −2.2), exhibits both retrograde and prograde rotation, with an asymmetric L z distribution toward high retrograde motions and larger θ orb than those possessed by the GE-dominated inner halo. (e) The Sgr dSph galaxy could induce a long-range dynamical effect on local halo stars. Implications for the formation of the stellar halo are also discussed.

Topics & Concepts

PhysicsHaloAstrophysicsMilky WayGalactic haloStarsAstronomyGalaxyThick diskProper motionDark matter haloStellar dynamicsMass distributionStellar kinematicsGalaxy formation and evolutionStellar evolutionStar clusterHorizontal branchStar countStellar massDistribution (mathematics)Galaxy rotation curveStellar, planetary, and galactic studiesAstronomy and Astrophysical ResearchScientific Research and Discoveries
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