Searching for Internal Absorption of High-Energy Gamma-rays in Extremely Luminous Blazars

Project Description: 

Active galactic nuclei (AGN) are cores of certain galaxies that exhibit energy outputs far exceeding those of normal galaxies, with the activity thought to be powered by a central supermassive black hole. Blazars are a special type of AGN, with jets that happen to point very close to the direction towards Earth. These sources produce very strong gamma-ray emission. This gamma-ray emission however can be strongly attenuated inside the source due to internal photon-photon absorption, when gamma-rays interact with the low-energy photon fields within the source, which then leads to characteristic features in gamma-ray spectra. Reliably detecting and thoroughly studying such features in blazars has been so far very limited; first of all, because of the scarcity of suitable candidate sources, but also due to limited statistics of available data. The study of the internal absorption is a crucial tool for unraveling the complex structure of these sources and gaining insights into physical mechanisms responsible for generation of extremely energetic gamma-rays. This project aims to search for absorption features in the gamma-ray spectra of selected objects, by employing detailed physical modeling of gamma-ray data of those sources using advanced models of gamma-gamma opacity. The findings of this project hold the potential to significantly advance our understanding of the physical processes governing blazars.(NWU)Proficiency with programming languages, such as Python. Basic understanding and experience with Bash scripting (needed for Fermi-LAT data analysis)

Supervisor

North-West University (NWU)

Co-Supervisor

Project Proposal (detailed)NWU