The Extremely High Dark Matter Halo Concentration of the Relic Compact Elliptical Galaxy Mrk 1216

Spatially compact stellar profiles and old stellar populations have established compact elliptical galaxies (CEGs) as local analogs of the high-redshift "red nuggets" thought to represent the progenitors of today's early-type galaxies (ETGs). To address whether the structure of the da...

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Bibliographic Details
Published in:The Astrophysical journal 2019-06, Vol.877 (2), p.91
Main Authors: Buote, David A., Barth, Aaron J.
Format: Article
Language:English
Subjects:
Acceleration
Active galactic nuclei
Analogs
Astrophysics
Compact galaxies
Dark matter
Elliptical galaxies
Emission analysis
Equilibrium analysis
galaxies: elliptical and lenticular, cD
galaxies: groups: general
galaxies: individual (Mrk 1216)
Outliers (statistics)
Red shift
Stars & galaxies
Stellar evolution
Stellar populations
X-rays: galaxies
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Summary:Spatially compact stellar profiles and old stellar populations have established compact elliptical galaxies (CEGs) as local analogs of the high-redshift "red nuggets" thought to represent the progenitors of today's early-type galaxies (ETGs). To address whether the structure of the dark matter (DM) halo in a CEG also reflects the extremely quiescent and isolated evolution of its stars, we use a new 122 ks Chandra observation together with a shallow 13 ks archival observation of the CEG Mrk 1216 to perform a hydrostatic equilibrium analysis of the luminous and relaxed X-ray plasma emission extending out to a radius 0.85r2500. We examine several DM model profiles and in every case obtain a halo concentration (c200) that is a large positive outlier in the theoretical ΛCDMc200-M200 relation; i.e., ranging from 3.4 to 6.3 above the median ΛCDM relation in terms of the intrinsic scatter. The high value of c200 we measure implies an unusually early formation time that firmly establishes the relic nature of the DM halo in Mrk 1216. The highly concentrated DM halo leads to a higher DM fraction and smaller total mass slope at 1 Re compared to nearby normal ETGs. In addition, the highly concentrated total mass profile of Mrk 1216 cannot be described by modified Newtonian dynamics without adding DM, and it deviates substantially from the radial acceleration relation. Our analysis of the hot plasma indicates that the halo of Mrk 1216 contains 80% of the cosmic baryon fraction within r200. The radial profile of the ratio of cooling time to freefall time varies within a narrow range (tc/tff 14-19) over a large central region (r ≤ 10 kpc), suggesting "precipitation-regulated active galactic nucleus feedback" for a multiphase plasma, although there is little evidence at present for cool gas in Mrk 1216. Finally, other than its compact stellar size, the stellar, gas, and DM properties of Mrk 1216 are remarkably similar to those of the nearby fossil group NGC 6482.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ab1008