The Low Temperature Corona in ESO 511-G030 Revealed by NuSTAR and XMM-Newton

Abstract

We present the results from a coordinated XMM-Newton + NuSTAR observation of the Seyfert 1 Galaxy ESO 511-G030. With this joint monitoring programme, we conduct a detailed variability and spectral analysis. The source remained in a low flux and very stable state throughout the observation period, although there are slight fluctuations of flux over long timescales. The broadband (0.3-78~keV) spectrum shows the presence of a power-law continuum with a soft excess below 2~keV, a relatively narrow iron Kα emission (6.4~keV), and an obvious cutoff at high energies. We find that the soft excess can be modeled by two different possible scenarios: a warm (kT e 0.19~keV) and optically thick (τ - 1825) Comptonizing corona or a relativistic reflection from a high-density ( [n e/ cm-3]=17.1 18.5) inner disc. All models require a low temperature (kT e 13~keV) for the hot corona.