Implications on the blazar sequence and inverse Compton models from Fermi bright blazars

Abstract

In this paper, we use the quasi-simultaneous spectra of Fermi bright blazars and Fermi detected narrow line Seyfert 1 (NLS1) to study the blazar sequence and inverse Compton (IC) models. I. The synchrotron peak luminosities (Ls) significantly inverse correlate with the synchrotron peak frequencies (s), Lss-0.44, which is consistent with the blazar sequence. In addition to the correlation, there are some blazars showing low s and low Ls. To study the relation between these low s low Ls blazars and the blazar sequence, we present correlations of the parameter Lss1/4 with the ratio of Compton to synchrotron peak frequencies (rCsC/s) and with the ratio of Compton to synchrotron luminosities (CD LC/Ls). The results indicate that both correlations are significant with a Pearson's probability for null correlation of p=0.0218 and p=0.0286 respectively. This does not support the idea that the low s low Ls blazars are sources with less beaming. Another possibility, as suggested by Ghisellini & Tavecchio, is that these blazars have relative lower black hole masses. To test this, we collect the black hole masses of 30 blazars from archives, and find that the hole mass correlates with the parameter Lss0.44 (p=0.0344). Therefore, the black hole masses of low s low Ls blazars are statistically small. The NLS1s are thought to have lower black hole masses. We find that the four NLS1s detected by Fermi have low s and low Ls. This supports the above result. II. The ratio rCs correlates with CD significantly (p=0.00375). The external Compton (EC) model can naturally explain this correlation, while synchrotron self Compton (SSC) model can not. This agrees with the findings of many authors that the EC process dominates the gamma-ray emission of Flat Spectrum Radio Quasars.