Revisiting the "Fundamental Plane" of Black Hole Activity at Extremely Low Luminosities

Abstract

We investigate the origin of the X-ray emission in low-luminosity AGNs (LLAGNs). Yuan & Cui (2005) predicted that the X-ray emission should originate from jets rather than from an advection-dominated accretion flow (ADAF) when the X-ray luminosity L X of the source is below a critical value of L X,crit ≈ 10-6L Edd. This prediction implies that the X-ray spectrum in such sources should be fitted by jets rather than ADAFs. Furthermore, below L X,crit the correlation between radio (L R) and X-ray (L X) luminosities and the black hole mass (M)--the so-called fundamental plane of black hole activity--should deviate from the general correlation obtained by Merloni, Heinz & Di Matteo (2003) and become steeper. The Merloni et al. correlation is described by logL R =0.6 logL X+0.78 logM+7.33, while the predicted correlation is logL R=1.23 logL X +0.25 logM-13.45. We collect data from the literature to check the validity of these two expectations. We find that among the 16 LLAGNs with good X-ray and radio spectra, 13 are consistent with the Yuan & Cui prediction. For the 22 LLAGNs with L X < L X,crit, the fundamental plane correlation is described by logL R=1.22 logL X+0.23 logM-12.46 , also in excellent agreement with the prediction.