XMM-Newton observation of the drifting pulsar B0943+10
Abstract
Radio pulsar subpulse drifting has been interpreted as rotation of sub-beams (sparks) of pair plasma produced by intermittent breakdowns of an inner vacuum gap above the pulsar polar cap. This model also predicts strong thermal X-ray emission from the polar cap caused by inflowing particles created in spark discharges. We have observed the best-studied drifting pulsar B0943+10 with XMM-Newton and detected a point source coincident with the radio pulsar position. Its spectrum could be fitted with a thermal blackbody model, although a power-law model is also acceptable. The thermal fit gives a bolometric luminosity Lbol ~ 5 x 1028 erg/s and a surface area A ~ 103 (T/3MK)-4 m2, much smaller than the conventional polar cap area, 6 x 104 m2. Such thermal radiation can be interpreted as emitted from footprints of sparks drifting in an inner gap of a height h ~ 0.1 - 0.2 rpc, where rpc is the polar cap radius. However, the original vacuum gap model by Ruderman and Sutherland requires some modification to reconcile the X-ray and radio data.
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