Nonthermal emission from accreting and merging clusters of galaxies

被引:50
作者
Fujita, Y
Sarazin, CL
机构
[1] Univ Virginia, Dept Astron, Charlottesville, VA 22903 USA
[2] Natl Astron Observ, Tokyo 1818588, Japan
关键词
cosmic rays; galaxies : clusters : general; intergalactic medium; radiation mechanisms : nonthermal; ultraviolet : general; X-rays : general;
D O I
10.1086/324030
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
We compare the nonthermal emission from clusters of galaxies undergoing minor mergers ("accreting" clusters) and major mergers ("merging" clusters). We define major mergers as mergers that change the inner dark matter structure of clusters; minor mergers are all others. For accreting clusters, the radial distribution of the nonthermal emission in the clusters is also calculated. The relativistic electrons, which are the origin of the nonthermal radiation through inverse Compton (IC) and synchrotron emission, are assumed to be accelerated at shocks produced by accretion or mergers. We estimate the typical accretion rate and merger probability according to a hierarchical clustering model. We predict that in the inner region of accreting clusters the nonthermal emission has a flat spatial distribution at all frequencies. For synchrotron and hard X-ray emissions, we predict an increase in the emissions at the cluster edge due to accretion. We show that the total luminosities of IC emission from accreting and merging clusters are similar. On the other hand, the luminosity of synchrotron radio emission of the former is much smaller than that of the latter. We show that about 10% of clusters at z similar to 0 should have hard X-ray and radio nonthermal emissions due to their last major merger that are comparable to or dominate those due to ongoing accretion. Moreover, 20%-40% of clusters should have significant EUV emission due to their last merger. We also investigate the case where the criterion of mergers is relaxed. If we extend the definition of a merger to an increase in the mass of the larger subcluster by at least 10% of its initial mass, about 20%-30% of clusters at z similar to 0 should have hard X-ray and radio nonthermal emissions due to the merger, even in a low-density universe. We compare the results with observations. We find that the observed EUV emission from clusters is not attributed to accretion. If the diffuse radio emission observed in clusters is synchrotron emission from electrons accelerated via accretion or merging, the magnetic fields of clusters are generally as small as similar to0.1 muG. One concern is that this is a significantly weaker field than that implied by Faraday rotation measurements.
引用
收藏
页码:660 / 672
页数:13
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