http://arxiv.org/abs/1401.4637
We present XMM-Newton and NuSTAR observations of two ultraluminous X-ray sources in the nearby galaxy IC 342. The observations were carried out in two epochs separated by ~7 days, with each having an approximate exposure time of ~40 ks (XMM-Newton) and ~100 ks (NuSTAR). We observe little spectral or flux variability above 1 keV between epochs, with unabsorbed 0.3–30 keV luminosities being $1.04^{+0.08}_{-0.06} \times 10^{40}$ erg s$^{-1}$ for IC 342 X-1 and $7.40\pm0.20 \times 10^{39}$ erg s$^{-1}$ for IC 342 X-2. IC 342 X-2 shows a highly variable component prominent below 1 keV that cannot be explained by blackbody or thermal plasma emission. With the broad bandpass of these observations we can demonstrate conclusively for the first time that both objects have a clear spectral turnover above ~8 keV. Neither source is consistent with a black hole binary in a low/hard state, and a simple reflection-dominated spectrum with a broadened iron line and no cutoff in the illuminating power-law continuum can be ruled out. While the overall continuum shape appears similar for both, IC 342 X-1 shows a soft blackbody-like excess between 1–2 keV which can be interpreted as resulting from a thin accretion disk with $T_{in} \sim 0.3$ keV, or from an optically thick outflow, while IC 342 X-2 lacks this excess component. The broadband spectrum of IC 342 X-1 suggests that if the source is powered by an accretion disk, then it must have a significantly shallower temperature profile relative to a thin Shakura & Sunyaev disk and possibly consistent with slim and/or advection dominated disks.
Tue, 21 Jan 14
32/91
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