TESTING THE IONIZED DISC REPROCESSING MODEL FOR THE SOFT-X-RAY EMISSION OF QUASARS

One of the current explanations for the soft X-ray emission of active galactic nuclei (AGN) is reprocessing of the hard X-rays by partially ionized, optically thick matter. This idea is very appearing because i t would explain the shape of the AGN soft X-ray spectrum in terms of a tomic physics. While at present the reflection model correctly describ es the soft X-ray spectra of a few low-luminosity Seyfert galaxies, it is not clear whether or not it can be applied to higher luminosity qu asars. To investigate this issue quantitatively, we have fitted the hi gh signal-to-noise ratio Position Sensitive Proportional Counter (PSPC ) spectra of 11 AGN of different luminosities with a model consisting of a direct hard X-ray component, reflection from the ionized surface of an accretion disc and the direct thermal emission of the disc. We f ind that the AGN with an acceptable fit are a minority, and all have a low optical (and bolometric) luminosity, flat PSPC energy index alpha (PSPC) and the flattest alpha(OX) of the sample, while those with the worst fit all have high optical (and bolometric) luminosity, steep alp ha(PSPC) and the steepest alpha(OX) of the sample. We conclude that ei ther the reprocessing model is not correct and the form of the soft X- ray spectrum of AGN cannot be simply explained in terms of characteris tic atomic features (i.e. highly ionized oxygen K-edges), or the origi n of the soft X-ray emission of AGN is not 'universal'.