Spectral Energy Distributions for TeV Blazars

Abstract

In this work, we collected a sample of 69 TeV blazars from TeVCat, obtained their multi-wavelength observations, and fitted their spectral energy distributions by using the second degree polynomial function. The structure parameters of the synchrotron bumps for 68 blazars and those of the inverse-Compton bumps for 56 blzars are obtained. Then, we adopted statistical analysis to the parameters (curvature, peak frequency, peak luminosity, bolometric luminosity, and X/γ-ray spectral indexes). From our analysis and discussions, we can get following conclusions: 1. There is a clear positive correlation between the synchrotron peak frequency, ps, and the inverse-Compton peak frequency pIC, and that between the synchrotron peak luminosity, ps Lps, and the inverse-Compton peak luminosity, pICLpIC. 2. The correlation between the peak frequency and the curvature of synchrotron bump is clearly different from that of the inverse-Compton bump, which further indicates that there are different emission mechanisms between them. 3. There is a correlation between pIC and γ-ray spectral index, αγ, for the TeV blazars: ICp = -(4.59 0.30) αγ + (32.67 0.59), which is consistent with previous work of Abdo et al.(2010). 4. An "L-shape" relation is found between sp and αX for both TeV blazars and Fermi blazars. A significant correlation between sp and X-ray photon index (αX) is found for the TeV blazars with high synchrotron peak frequency: sp = -(3.20 0.34) αX + (24.33 0.79), while the correlation is positive for low synchrotron peaked TeV sources. 5. In the αX-αγ diagram, there is also an "L-shape", the anti-correlation is consistent with the available results in the literature, (...)