Blazars are a special type of AGN, with jets that happen to
point very close to the direction towards Earth. The powerful
gamma-ray beam from distant blazars represents a unique tool to
explore the environment along its path, and allows us to probe opacity
both inside the source and in the intergalactic medium. Internally,
gamma-rays experience attenuation due to photon-photon absorption, a
result of interactions with AGN-generated photon fields. This
interaction introduces distinct features in gamma-ray spectra. Upon
exiting the source, gamma-rays encounter attenuation due to the
Extragalactic Background Light (EBL). Understanding and characterizing
these absorption processes not only reveals the complex structure of
blazars and the poorly known gamma-ray emitting zone's location, but
also holds implications for fundamental physics, including axion-like
particles (ALPs). In this work, we perform analysis and physical
modeling of Fermi-LAT data of nine high-redshift (z > 3) blazars, and
search for characteristic features in the gamma-ray spectra induced by
the internal absorption, as well as endeavor to establish stringent
constraints on the EBL, given the high redshift of the blazars under
study.
point very close to the direction towards Earth. The powerful
gamma-ray beam from distant blazars represents a unique tool to
explore the environment along its path, and allows us to probe opacity
both inside the source and in the intergalactic medium. Internally,
gamma-rays experience attenuation due to photon-photon absorption, a
result of interactions with AGN-generated photon fields. This
interaction introduces distinct features in gamma-ray spectra. Upon
exiting the source, gamma-rays encounter attenuation due to the
Extragalactic Background Light (EBL). Understanding and characterizing
these absorption processes not only reveals the complex structure of
blazars and the poorly known gamma-ray emitting zone's location, but
also holds implications for fundamental physics, including axion-like
particles (ALPs). In this work, we perform analysis and physical
modeling of Fermi-LAT data of nine high-redshift (z > 3) blazars, and
search for characteristic features in the gamma-ray spectra induced by
the internal absorption, as well as endeavor to establish stringent
constraints on the EBL, given the high redshift of the blazars under
study.
Dates:
Tuesday, 31 October, 2023 - 14:00
Localisation / Location:
APC
Salle / Local:
483A-Malevitch
- Séminaire
Nom/Prénom // Last name/First name:
Anton Dmytriiev
Affiliation:
Centre for Space Research, North-West University, Potchefstroom
Equipe(s) organisatrice(s) / Organizing team(s):
- Théorie
Pays / Country:
South Africa