Measuring the Coronal Properties of IC4329A with NuSTAR

Abstract

We present an analysis of a ~160 ks NuSTAR observation of the nearby bright Seyfert galaxy IC4329A. The high-quality broadband spectrum enables us to separate the effects of distant reflection from the direct coronal continuum, and to therefore accurately measure the high-energy cutoff to be Ecut=178+74-40 keV. The coronal emission arises from accretion disk photons Compton up-scattered by a thermal plasma, with the spectral index and cutoff being due to a combination of the finite plasma temperature and optical depth. Applying standard Comptonization models, we measure both physical properties independently using the best signal-to-noise obtained to date in an AGN over the 3-79 keV band. We derive kTe=37+7-6 keV with τ=1.25+0.20-0.10 assuming a slab geometry for the plasma, and kTe=33+6-6 keV with τ=3.41+0.58-0.38 for a spherical geometry, with both having an equivalent goodness-of-fit.