RXTE Spectrum of A2319

Abstract

The cluster of galaxies A2319 was observed in 1999 for 160 ks by the PCA and HEXTE instruments aboard the RXTE satellite. No noticeable variability is seen in the emission measured by either instrument over the 8 week observation. Fitting the RXTE data by a single thermal component we obtain kT = 8.6 0.1 (90% confidence limits), a low iron abundance ZFe 0.16 0.02, and large positive residuals below 6 keV and between 15 to 30 keV. The quality of the fit is drastically improved if a second component is added. A two-temperature model yields kT1 10.1 0.6, kT2 2.8 0.6, and of ZFe 0.23 0.03. An equally good fit is obtained by a combination of a primary thermal and a secondary nonthermal component, with kT 8.9 0.6, and power-law index α 2.4 0.3. We have repeated the analysis by performing joint fits to both these RXTE measurements and archival ASCA data. At most 25% of the RXTE secondary component could be present in the ASCA data. Allowing for this difference, very similar results were obtained, with only somewhat different values for the temperature and power-law index in the latter model. The deduced value of α is consistent with the measured spectrum of extended radio emission. Identifying the power-law emission as Compton scattering of the radio-emitting electrons by the CMB, we obtain B 0.1-0.3 μG for the volume-averaged magnetic field, and 4 × 10-14(R/2 Mpc)-3 erg cm-3 for the mean energy density of the emitting electrons in the central region (radius R) of A2319.

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