A Caltech Library Service

Dynamical-friction galaxy-gas coupling and cluster cooling flows

El-Zant, Amr A. and Kim, Woong-Tae and Kamionkowski, Marc (2004) Dynamical-friction galaxy-gas coupling and cluster cooling flows. Monthly Notices of the Royal Astronomical Society, 354 (1). pp. 169-175. ISSN 0035-8711. doi:10.1111/j.1365-2966.2004.08175.x.

[img] PDF - Published Version
See Usage Policy.

[img] PDF - Accepted Version
See Usage Policy.


Use this Persistent URL to link to this item:


We revisit the notion that galaxy motions can efficiently heat intergalactic gas in the central regions of clusters through dynamical friction. For plausible values of the galaxy mass‐to‐light ratio, the heating rate is comparable with the cooling rate due to X‐ray emission. Heating occurs only for supersonic galaxy motions, so the mechanism is self‐regulating: it becomes efficient only when the gas sound speed is smaller than the galaxy velocity dispersion. We illustrate with the Perseus cluster, assuming a stellar mass‐to‐light ratio for galaxies in the very central region with the dark matter contribution becoming comparable with this at some radius rₛ. For rₛ≲ 400 kpc ∼ 3r_(cool) – corresponding to an average mass‐to‐light ratio of ∼10 inside that radius – the dynamical‐friction coupling is strong enough to provide the required rate of gas heating. Such values of rₛ are associated with total mass attached to galaxies that is about 10 per cent of the mass of the cluster – consistent with values inferred from numerical simulations and observations. The measured sound speed is smaller than the galaxy velocity dispersion, as required by this mechanism. With this smaller gas temperature and the observed distribution of galaxies and gas, the energy reservoir in galactic motions is sufficient to sustain the required heating rate for the lifetime of the cluster. The galaxies also lose a smaller amount of energy through dynamical friction to the dark matter implying that non‐cooling‐flow clusters should have flat‐cored dark matter density distributions.

Item Type:Article
Related URLs:
URLURL TypeDescription Paper
Additional Information:© 2004 RAS. Received: 29 June 2004. Accepted: 01 July 2004. Published: 11 October 2004. The authors would like to thank M. C. Begelman, E. Bertschinger, P. Goldreich, R. Narayan, E. Ostriker, N. Scoville and R. Sunyaev for helpful discussions and communications. We also thank the referee for a careful reading of the text and the many detailed comments that have lead to significant improvement. This work was supported at Caltech by NASA NAG5‐9821, DoE DE‐FG03‐92‐ER40701 and NSF grant AST 00‐98301, and at the CfA by NAG5‐10780 and NSF grant AST 0307433.
Funding AgencyGrant Number
Department of Energy (DOE)DE-FG03-92-ER40701
NSFAST 00-98301
Subject Keywords:galaxies: clusters: general, galaxies: evolution, galaxies: formation, galaxies: interactions, galaxies: kinematics and dynamics
Issue or Number:1
Record Number:CaltechAUTHORS:20200608-110444545
Persistent URL:
Official Citation:Amr A. El‐Zant, Woong‐Tae Kim, Marc Kamionkowski, Dynamical‐friction galaxy–gas coupling and cluster cooling flows, Monthly Notices of the Royal Astronomical Society, Volume 354, Issue 1, October 2004, Pages 169–175,
Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:103751
Deposited By: Rebecca Minjarez
Deposited On:09 Jun 2020 20:23
Last Modified:16 Nov 2021 18:24

Repository Staff Only: item control page