We present an analysis of BeppoSAX observations of the IC 1262 galaxy cluster and report the first temperature and abundance measurements, along with preliminary indications of diffuse, nonthermal emission. By fitting a 6' (~360 h kpc) region with a single Mewe-Kaastra-Liedahl model with photoelectric absorption, we find a temperature of 2.1-2.3 keV and an abundance of 0.45-0.77 (both 90% confidence). We find that the addition of a power-law component provides a statistically significant improvement (F-test = 90%) to the fit. The addition of a second thermal component also improves the fit, but we argue that it is physically implausible. The power-law component has a photon index (ΓX) of 0.4-2.8 and a nonthermal flux of (4.1-56.7) × 10-5 photons cm-2 s-1 over the 1.5-10.5 keV range in the Medium Energy Concentrator Spectrometer detector. An unidentified X-ray source found in the ROSAT High Resolution Imager observation (~09 from the center of the cluster) is a possible explanation for the nonthermal flux; however, additional evidence of diffuse, nonthermal emission comes from the NRAO VLA Sky Survey and the Westerbork Northern Sky Survey radio measurements, in which excess diffuse radio flux is observed after point-source subtraction. The radio excess can be fitted to a simple power law with a spectral index of ~1.8, which is consistent with the nonthermal X-ray emission spectral index. The steep spectrum is typical of diffuse emission, and the size of the radio source implies that it is larger than the cD galaxy and not due to a discreet source.
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