Do Radio Active Galactic Nuclei Reflect X-ray Binary Spectral States?

TL;DR

This study investigates whether radio-loud AGN exhibit spectral states similar to X-ray binaries by analyzing their placement on a hardness-intensity diagram based on radio morphology and excitation class, revealing significant distinctions.

Contribution

It demonstrates that different radio galaxy populations occupy distinct regions in the AGN hardness-intensity diagram, highlighting parallels with XRB spectral states and advancing understanding of AGN accretion modes.

Findings

FR I and II, HERG and LERG, occupy distinct HID regions

Strong correlation between radio morphology/excitation class and spectral state

No significant difference based on radio jet linear extent

Abstract

Over recent years there has been mounting evidence that accreting supermassive black holes in active galactic nuclei (AGN) and stellar mass black holes have similar observational signatures: thermal emission from the accretion disk, X-ray corona, and relativisitic jets. Further, there have been investigations into whether or not AGN have spectral states similar to that of X-ray binaries (XRBs) and what parallels can be drawn between the two using a hardness-intensity diagram (HID). To address whether AGN jets might be related to accretion states as in XRBs, we explore whether populations of radio-AGN classified according to their radio jet morphology (Fanaroff-Riley classes I and II; FR I and II), excitation class (HERG and LERG), and radio jet linear extent (compact to giant) occupy different and distinct regions of the AGN hardness-intensity diagram (total luminosity vs. hardness). We do this by cross correlating 15 catalogs of radio galaxies with the desired characteristics from the literature with XMM Newton and Swift X-ray and ultraviolet (UV) source catalogs. We calculate the luminosity and hardness from the X-ray and UV photometry, place the sources on the AGN hardness-intensity diagram, and search for separation of populations and analogies with the XRB spectral state HID. We find that (a) FR Is and IIs, (b) HERGs and LERGs, (c) FR I-LERGs and FR II-HERGs occupy distinct areas of the HID at a statistically significant level (p-value < 0.05) and no clear evidence for population distinction between the different radio jet linear extents. The separation between FR I-LERG and FR II-HERG populations is the strongest in this work. Our results indicate that radio-loud AGN occupy distinct areas of the HID depending on the morphology and excitation class, showing strong similarities to XRBs.