Astronomy and Astrophysics – Astrophysics
Scientific paper
2001-01-31
Astronomy and Astrophysics
Astrophysics
15 pages, 2 tables, 4 figures; accepted for publication in ApJ
Scientific paper
10.1086/320662
We present a new investigation of the mass-temperature (\MTrelation) relation of 22 nearby clusters based on the analysis of their ROSAT X-ray surface brightness profiles ($S_{X}(r)$) and their ASCA emission weighted temperatures. Two methods of the cluster mass estimations are employed and their results are compared: (1) the conventional $\beta$ model for gas distribution along with the isothermal and hydrostatic equilibrium assumptions, and (2) the NFW profile for dark matter distribution whose characteristic density and length are determined by the observed $S_{X}(r)$. These two models yield essentially the same goodness of fits for $S_{X}(r)$ and the similar \MTrelation relations, with the latter demonstrating a significant departure from the simple gravitational scaling of $M_{tot}\propto T_X^{3/2}$. It is also shown that the best-fit \MTrelation relations could be reconciled with the theoretical expectation if the low-temperature clusters ($T_X<3.5$ keV) are excluded from the list, which lends support to the scenario that the intra-cluster medium is preheated in the early phase of cluster formation. Together with the entropy-temperature distribution, the existence of a similarity break at $T_X=3-4$ keV in the dynamical scaling relations for galaxy clusters has been confirmed.
Jin Guangxue
Wu Xiang-Ping
Xu Haiguang
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