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Main Authors: Deng, Chang-Bin, Shi, Yong-You, Song, Yu-Jie, Xue, Rui, Du, Lei-Ming, Wang, Ze-Rui, Xie, Zhao-Hua
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.17202
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author Deng, Chang-Bin
Shi, Yong-You
Song, Yu-Jie
Xue, Rui
Du, Lei-Ming
Wang, Ze-Rui
Xie, Zhao-Hua
author_facet Deng, Chang-Bin
Shi, Yong-You
Song, Yu-Jie
Xue, Rui
Du, Lei-Ming
Wang, Ze-Rui
Xie, Zhao-Hua
contents The discovery that blazars dominate the extra-galactic γ-ray sky is a triumph in the Fermi era. However, the exact location of γ-ray emission region still remains in debate. Low-synchrotron-peaked blazars (LSPs) are estimated to produce high-energy radiation through the external Compton process, thus their emission regions are closely related to the external photon fields. We employed the seed factor approach proposed by Georganopoulos et al. It directly matches the observed seed factor of each LSP with the characteristic seed factors of external photon fields to locate the γ-ray emission region. A sample of 1138 LSPs with peak frequencies and peak luminosities was adopted to plot a histogram distribution of observed seed factors. We also collected some spectral energy distributions (SEDs) of historical flare states to investigate the variation of γ-ray emission region. Those SEDs were fitted by both quadratic and cubic functions using the Markov-chain Monte Carlo method. Furthermore, we derived some physical parameters of blazars and compared them with the constraint of internal γγ-absorption. We find that dusty torus dominates the soft photon fields of LSPs and most γ-ray emission regions of LSPs are located at 1-10 pc. The soft photon fields could also transition from dusty torus to broad line region and cosmic microwave background in different flare states. Our results suggest that the cubic function is better than the quadratic function to fit the SEDs.
format Preprint
id arxiv_https___arxiv_org_abs_2406_17202
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Constraining the Physical Parameters of Blazars Using the Seed Factor Approach
Deng, Chang-Bin
Shi, Yong-You
Song, Yu-Jie
Xue, Rui
Du, Lei-Ming
Wang, Ze-Rui
Xie, Zhao-Hua
High Energy Astrophysical Phenomena
The discovery that blazars dominate the extra-galactic γ-ray sky is a triumph in the Fermi era. However, the exact location of γ-ray emission region still remains in debate. Low-synchrotron-peaked blazars (LSPs) are estimated to produce high-energy radiation through the external Compton process, thus their emission regions are closely related to the external photon fields. We employed the seed factor approach proposed by Georganopoulos et al. It directly matches the observed seed factor of each LSP with the characteristic seed factors of external photon fields to locate the γ-ray emission region. A sample of 1138 LSPs with peak frequencies and peak luminosities was adopted to plot a histogram distribution of observed seed factors. We also collected some spectral energy distributions (SEDs) of historical flare states to investigate the variation of γ-ray emission region. Those SEDs were fitted by both quadratic and cubic functions using the Markov-chain Monte Carlo method. Furthermore, we derived some physical parameters of blazars and compared them with the constraint of internal γγ-absorption. We find that dusty torus dominates the soft photon fields of LSPs and most γ-ray emission regions of LSPs are located at 1-10 pc. The soft photon fields could also transition from dusty torus to broad line region and cosmic microwave background in different flare states. Our results suggest that the cubic function is better than the quadratic function to fit the SEDs.
title Constraining the Physical Parameters of Blazars Using the Seed Factor Approach
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2406.17202