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Main Authors: Kizhakkekalam, Sangeetha, Bhatta, Gopal, K, Navaneeth P, Adhikari, Tek P.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.08531
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author Kizhakkekalam, Sangeetha
Bhatta, Gopal
K, Navaneeth P
Adhikari, Tek P.
author_facet Kizhakkekalam, Sangeetha
Bhatta, Gopal
K, Navaneeth P
Adhikari, Tek P.
contents Mrk~421 is one of the most fascinating blazars, widely studied across the electromagnetic spectrum using observations at various wavebands, from radio to the TeV gamma ray bands. We present the first detailed spectral and timing analysis of the TeV blazar Mrk~421 based on 45 X-ray observations from the \textit{NICER} X-ray telescope, collected over two years from 2022 to 2024. The source exhibits strong X-ray variability across intraday and long-term timescales. During this period, we observe a dramatic change in flux, from $\sim 50$ to $\sim 1380$~counts~s$^{-1}$, representing a $\sim 28$-fold increase. Spectral modeling with power-law, broken power-law, and log-parabolic functions shows that the log-parabola provides the most accurate description of the X-ray spectra. The hardness ratio analysis confirms a \textit{harder-when-brighter} trend, consistent with the anticorrelation between flux and both $Γ$ and $α$. Correlation studies reveal a positive relation between $α$ and $β$, a negative correlation between $β$ and synchrotron peak energy $E_{\mathrm{p}}$, and a positive correlation between $E_{\mathrm{p}}$ and flux. These observed features can be interpreted within the framework of energy-dependent particle acceleration in blazar jets, which are often associated with turbulence, strong magnetic fields, and relativistic outflows. This work demonstrates that observations from \textit{NICER} can play an important role in blazar variability studies and motivate future multiwavelength campaigns aimed at fully characterizing the dynamical processes in relativistic jets.
format Preprint
id arxiv_https___arxiv_org_abs_2512_08531
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle NICER Perspective on TeV Blazar Mrk~421: X-ray Variability and Particle Acceleration
Kizhakkekalam, Sangeetha
Bhatta, Gopal
K, Navaneeth P
Adhikari, Tek P.
High Energy Astrophysical Phenomena
Mrk~421 is one of the most fascinating blazars, widely studied across the electromagnetic spectrum using observations at various wavebands, from radio to the TeV gamma ray bands. We present the first detailed spectral and timing analysis of the TeV blazar Mrk~421 based on 45 X-ray observations from the \textit{NICER} X-ray telescope, collected over two years from 2022 to 2024. The source exhibits strong X-ray variability across intraday and long-term timescales. During this period, we observe a dramatic change in flux, from $\sim 50$ to $\sim 1380$~counts~s$^{-1}$, representing a $\sim 28$-fold increase. Spectral modeling with power-law, broken power-law, and log-parabolic functions shows that the log-parabola provides the most accurate description of the X-ray spectra. The hardness ratio analysis confirms a \textit{harder-when-brighter} trend, consistent with the anticorrelation between flux and both $Γ$ and $α$. Correlation studies reveal a positive relation between $α$ and $β$, a negative correlation between $β$ and synchrotron peak energy $E_{\mathrm{p}}$, and a positive correlation between $E_{\mathrm{p}}$ and flux. These observed features can be interpreted within the framework of energy-dependent particle acceleration in blazar jets, which are often associated with turbulence, strong magnetic fields, and relativistic outflows. This work demonstrates that observations from \textit{NICER} can play an important role in blazar variability studies and motivate future multiwavelength campaigns aimed at fully characterizing the dynamical processes in relativistic jets.
title NICER Perspective on TeV Blazar Mrk~421: X-ray Variability and Particle Acceleration
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2512.08531