First observation of Jupiter by XMM-Newton

We present the first X-ray observation of Jupiter by XMM-Newton. Images taken with the EPIC cameras show prominent emission, essentially all confined to the 0.2−2.0 keV band, from the planet's auroral spots; their spectra can be modelled with a combination of unresolved emission lines of highly ionised oxygen (OVII and OVIII), and a pseudo-continuum which may also be due to the superposition of many weak lines. A 2.8� enhancement in the RGS spectrum at 21−22 A (∼0.57 keV) is consistent with an OVII identification. Our spectral analysis supports the hypothesis that Jupiter's auroral em issions originate from the capture and acceleration of solar wind ions in the planet's magnetosphere, followed by X-ray product ion by charge exchange. The X-ray flux of the North spot is modulat ed at Jupiter's rotation period. We do not detect evidence fo r the∼45 min X-ray oscillations observed by Chandra more than two years earlier. Emission from the equatorial regions of the planet's disk is also observed. Its spectrum is consistent w ith that of scattered solar X-rays.