A tenuous x-ray corona enveloping AE aquarii

In this paper we propose that the observed unpulsed X-ray emission in AE Aquarii is the result of a very tenuous hot corona associated with the secondary star, which is pumped magnetohydrodynamically by the propeller action of the fast rotating white dwarf. It is shown that the closed coronal field of the secondary star envelops a substantial portion of the binary system, including the fast rotating magnetized white dwarf. This implies that the propeller outflow of material in AE Aquarii is initiated inside an enveloping magnetic cavity. The outflow crossing the secondary dead-zone field constitutes a beta(gen) = (8 pi rho upsilon(2)(esc)/B-2) >> 1 plasma, acting as a magnetohydrodynamic generator resulting in the induction of field-aligned currents in these closed magnetospheric circuits where beta(cir) = (8 pi nkT/B-2) << 1. The Ohmic heating of the coronal circuit can readily account for a T-x >= 10(7) K plasma in the coronal flux tubes connecting the generator and the stellar surface. Further, the bremsstrahlung losses of the thermal electrons in the coronal circuit can readily drive the observed unpulsed X-ray luminosity of L-x similar to 10(31) erg s (-1), which correlates with the luminosity and relatively large source implied by recent XMM-Newton observations.