ABSTRACT Blazars’ non-thermal emission shows rapid variability across all wavelengths, so spectral energy distributions (SEDs) built from quasi-simultaneous data are crucial for revealing the jet’s physical properties. In this work, we construct quasi-simultaneous broadband SEDs for 93 Fermi blazars (56 FSRQs, 35 BL Lacs, and 2 blazar candidates of uncertain type), fit both peaks with cubic functions to allow for potential asymmetries, and examine correlations among key parameters. Our main results are summarized as follows: (1) We find that synchrotron peak frequency and curvature are only weakly related, suggesting that charged particles are accelerated by mixed acceleration mechanism. (2) The blazar sequence is confirmed in the observer’s frame through negative correlations of both the bolometic luminosity L ₁₎₋ and the Compton dominance Y with the synchrotron peak frequency ₒₘ₍^ peak. After correcting for Doppler boosting, a weak positive correlation emerges between L ₁₎₋ and ₒₘ₍^ peak. FSRQs and BL Lacs exhibit distinct correlation patterns within the blazar sequence, indicating differences in cooling mechanisms. (3) Using variability time lags between 0. 1–1 GeV and 1–300 GeV light curves, we estimate lower limits of Doppler factors for four sources, providing a jet-speed diagnostic anchored directly to the -ray emission zone.
Zhong et al. (Fri,) studied this question.
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