The synchrotron component study in a spectral energy distribution of blazars

TL;DR

This study analyzes the synchrotron component of 877 blazars' spectral energy distributions, classifying them by peak frequency and comparing properties across blazar types, confirming previous findings with a larger sample.

Contribution

It provides a comprehensive classification of blazars based on synchrotron peak frequency using a large dataset, expanding prior smaller studies.

Findings

Distribution of peak frequencies differs between FSRQs and BL Lacs.

No ultra-high energy peaked blazars found in the sample.

A significant fraction of FSRQs are candidates for very-low synchrotron peaked blazars.

Abstract

We study the synchrotron component of the spectral energy distribution (SED) on the sample of 877 blazars using the ASDC SED Builder Tool with available broadband data from the literature. Our sample includes 423 flat-spectrum radio sources (FSRQs), 361 BL Lac objects and candidates, and 93 blazars of uncertain type. We have made an estimation of the synchrotron peak frequency ($\nu_{peak}^{s}$) for the 875 objects and further classified them as high, intermediate and low synchrotron peaked sources (HSPs/ISPs/LSPs). There are 42 HSPs with $\nu_{peak}^{s} > 10^{16.5}$ Hz, 222 ISPs with $10^{14.5} < \nu_{peak}^{s} < 10^{16.5}$ Hz, and 611 LSPs with $\nu_{peak}^{s} < 10^{14.5}$ Hz in our sample. We have calculated an average value of $\nu_{peak}^{s}$ to be $10^{13.4 \pm 1.0}$ Hz for FSRQs and $10^{14.6 \pm 1.4}$ Hz for BL Lacs. We found out that $\nu_{peak}^{s}$ and the flux density at 4.8 GHz have a different distribution (as indicated by Kolmogorov-Smirnov test at significance level 0.05) for the FSRQ and BL Lac blazars, and for the RBL and XBL types of BL Lacs. Distribution of $\nu_{peak}^{s}$ values is broader for BL Lacs, than for FSRQs. There are no ultra-high energy peaked objects (with $\nu_{peak}^{s} > 10^{19}$ Hz) in our BL Lac sample according to our estimations. The significant part of FSRQs (41%) and small part of BL Lacs (9%) in our sample could be considered as candidates to the very-low synchrotron peaked blazars (with $\nu_{peak}^{s} < 10^{13}$ Hz). Our foundations confirm results of the previous studies made on samples with significantly smaller number of objects.