X‐Ray Emission from Central Binary Systems of Planetary Nebulae

Abstract

We study the conditions under which a main sequence binary companion to the central ionizing star of a planetary nebula (PN) might become magnetically active and thereby display strong X-ray luminosity. Since most PNe are older than few billion years, any main sequence companion will rotate too slowly to have magnetic activity and hence bright X-ray emission, unless it is spun-up. We demonstrate that if the orbital separation during the AGB phase of the PN progenitor is less than 30-60 AU, main sequence companions in the spectral type range F7 to M4 will accrete enough angular momentum from the AGB wind to rotate rapidly, become magnetically active, and exhibit strong X-ray luminosities. Lower mass M stars and brown dwarfs can also become magnetically active, but they should have small orbital separations and hence are less likely to survive the AGB phase of the progenitor. We estimate that 20-30 per cent of elliptical PNe and 30-50 per cent of bipolar PN are likely to have magnetically active companions which will reveal themselves in X-ray observations. Re-analysis of Chandra X-ray Observatory spectroscopy of the compact central source of NGC 7293 indicates that the emitting region of this object possesses abundance anomalies similar to those of coronally active main-sequence stars.