A DYNAMICALLY DRIVEN, UNIVERSAL THERMAL PROFILE of GALAXY GROUPS and CLUSTERS

Ido Reiss, Uri Keshet

Research output: Contribution to journalArticlepeer-review

4 Scopus citations

Abstract

Large scale structures such as groups and clusters of galaxies show a universal, nearly linear entropy radial profile K(r). Using deprojected 16 clusters and 12 groups from the literature, we find that K r0.96±0.01, consistent with the mean power-law index (0.9-1.1) of previous studies. A similarly good fit is given by a ratio between cooling and free-fall times. Both profiles slightly flatten at small radii, as τ becomes of order unity. The entropy profile is usually attributed to self-similar shock accretion (shown to be inconsistent with the data), to non-standard heat conduction, or to turbulent heating. We argue that a dynamical mechanism is needed to sustain such a universal profile, oblivious to the temperature peak at the edge of the core and to the virial shock at the outskirts, and robust to the presence of ongoing cooling, merger, and active galactic nucleus activity. In particular, we show that such a profile can be naturally obtained in a spiral flow, which is likely to underlie most galaxy aggregates according to the ubiquitous spiral patterns and cold fronts observed. Generalizing a two-phase spiral flow model out to the virial radius surprisingly reproduces the thermal profile. A generalized Schwarzschild criterion indicates that observed spiral patterns must involve a convective layer, which may regulate the thermal profile.

Original languageEnglish
Article number129
JournalAstrophysical Journal
Volume810
Issue number2
DOIs
StatePublished - 10 Sep 2015

Keywords

  • X-rays: galaxies: clusters
  • galaxies: clusters: general
  • hydrodynamics
  • intergalactic medium

ASJC Scopus subject areas

  • Astronomy and Astrophysics
  • Space and Planetary Science

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