Discovery of an absorbed cluster of galaxies (XMMU J183225.4-103645) close to the Galactic plane with XMM-Newton
Abstract
During an XMM-Newton observation of the galactic supernova remnant G21.5-09 a bright, previously uncatalogued, source (XMMU J183225.4-103645) was detected 18 arcmin from G21.5-09. The European Photon Imaging Camera data inside 1 arcmin (180/h50 kpc) radius are consistent with a source at a redshift of 0.1242 [+0.0003, -0.0022] with an optically thin thermal spectrum of temperature 5.8 +- 0.6 keV and a metal abundance of 0.60 +- 0.10 solar. This model gives a 2 - 10 keV luminosity of 3.5[+0.8, -0.4]/h502 1044 erg/s. These characteristics, as well as the source extent of 2.0 arcmin (350/h50 kpc), and the surface brightness profile are consistent with emission from the central region of a moderately rich cluster containing a cooling flow with mass flow rate of 400-600 MSun/yr. The absorption is 7.9 +- 0.5 1022 atom/cm2, 5 times that inferred from low-resolution HI data but consistent with higher spatial resolution infrared dust extinction estimates. XMMU J183225.4-103645 is not visible in earlier ROSAT observations due to high amount of absorption. This discovery demonstrates the capability of XMM-Newton to map the cluster distribution close to the Galactic plane, where few such systems are known. The ability of XMM-Newton to determine cluster redshifts to 1% precision at z = 0.1 is especially important in optically crowded and absorbed fields such as close to the Galactic plane, where the optical redshift measurements of galaxies are difficult.
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