Probing the Balance of AGN and Star-Forming Activity in the Local Universe with ChaMP

TL;DR

This study uses SDSS and ChaMP data to explore how X-ray properties of nearby galaxies relate to their evolutionary stages, revealing a potential switch in black hole accretion modes similar to stellar black holes.

Contribution

It provides the first empirical evidence of an intrinsic switch in accretion modes in supermassive black holes, linking X-ray spectral properties to galaxy evolution and black hole accretion physics.

Findings

X-ray luminosity and spectral slope decline along the galaxy sequence.

An anti-correlation between spectral slope and Eddington ratio at low luminosities.

Evidence for a transition in accretion mode similar to stellar mass black holes.

Abstract

The combination of the SDSS and the Chandra Multiwavelength Project (ChaMP) currently offers the largest and most homogeneously selected sample of nearby galaxies for investigating the relation between X-ray nuclear emission, nebular line-emission, black hole masses, and properties of the associated stellar populations. We present here novel constraints that both X-ray luminosity Lx and X-ray spectral energy distribution bring to the galaxy evolutionary sequence H II -> Seyfert/Transition Object -> LINER -> Passive suggested by optical data. In particular, we show that both Lx and Gamma, the slope of the power-law that best fits the 0.5 - 8 keV spectra, are consistent with a clear decline in the accretion power along the sequence, corresponding to a softening of their spectra. This implies that, at z ~ 0, or at low luminosity AGN levels, there is an anti-correlation between Gamma and L/Ledd, opposite to the trend exhibited by high z AGN (quasars). The turning point in the Gamma -L/Ledd LLAGN + quasars relation occurs near Gamma ~ 1.5 and L/Ledd ~ 0.01. Interestingly, this is identical to what stellar mass X-ray binaries exhibit, indicating that we have probably found the first empirical evidence for an intrinsic switch in the accretion mode, from advection-dominated flows to standard (disk/corona) accretion modes in supermassive black hole accretors, similar to what has been seen and proposed to happen in stellar mass black hole systems. The anti-correlation we find between Gamma and L/Ledd may instead indicate that stronger accretion correlates with greater absorption. Therefore the trend for softer spectra toward more luminous, high redshift, and strongly accreting AGN/quasars could simply be the result of strong selection biases reflected in the dearth of type 2 quasar detections.