Long-term Fermi observations of Mrk 421: clues for different non-stationary processes

IF 1.8 4区物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS

Astrophysics and Space Science Pub Date : 2025-02-21 DOI:10.1007/s10509-025-04411-0

B. Kapanadze, A. Gurchumelia, M. Aller

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Abstract

This paper presents the gamma-ray spectral and timing results from the long-term regular observations of Mrk 421 with the Large Area Telescope (LAT) onboard Fermi during 2008 August–2023 August. We discerned six periods of the relatively stronger 0.3–300 GeV activity compared to other time intervals. The baseline brightness level varied on timescales from several months to years during these periods, which was superimposed by shorter-term flares of the different asymmetry. The latter are explained by various interplay between the light-crossing, particle acceleration and cooling timescales. The source also frequently exhibited two-peak flares, to be triggered by the propagation of forward and reverse shocks after collision between the “shells” of high-energy plasma, moving with different speeds down the jet. The strongest long-term flaring activity was recorded during 2012 June–2013 October and 2017 October–2018 March when the source was mostly brighter than \(10^{-7}\text{ ph}\,\text{cm}^{-2}\,\text{s}^{-1}\) in the 0.3–300 GeV energy range and robustly detectable even on intraday timescales. We detected 25 instances of intraday variability and a large number of the flux doubling/halving instances, allowing to constrain the upper limit to the emission zone size to be in the range of \(1.3\times 10^{16}\text{ cm}\text{--}1.1\times 10^{18}\text{ cm}\). The source generally showed a lognormal variability in the LAT energy range, explained as an imprinting of the disc nonstationary processes on the jet, proton-initiated hadronic cascades or random fluctuations in the particle acceleration rate. Most of the 0.3–300 GeV spectra were well-fit with a simple power-law model and showed a very broad range of the photon-index from \(\Gamma \sim 2.8\) down to \(\Gamma \sim 1.2\), with the mean values \(\Gamma _{\mathrm{mean}}=1.75\text{--}1.84\) and distribution peaks \(\Gamma _{\mathrm{p}}=1.73\text{--}1.82\) during the periods of strong LAT-band activity. Our spectral study also revealed the features of inverse-Compton upscatter of X-ray photons in the Klein-Nishina regime, relativistic magnetic reconnection, first-order Fermi mechanism within the magnetic field of different confinement efficiencies and stochastic acceleration.

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费米对Mrk 421的长期观测：不同非平稳过程的线索

本文介绍了2008年8月至2023年8月期间，Fermi机载大面积望远镜（Large Area Telescope， LAT）对Mrk 421长期定期观测的伽玛射线谱和时序结果。与其他时间间隔相比，我们发现了6个相对较强的0.3-300 GeV活动周期。在这些时期，基线亮度水平在时间尺度上从几个月到几年不等，这是由不同不对称的短期耀斑叠加而成的。后者可以用穿越光、粒子加速和冷却时间尺度之间的各种相互作用来解释。源也经常表现出双峰耀斑，这是由高能等离子体“壳”之间碰撞后的正向和反向冲击的传播引发的，以不同的速度沿着射流移动。2012年6月至2013年10月和2017年10月至2018年3月记录了最强的长期燃烧活动，当时源在0.3-300 GeV能量范围内大部分比\(10^{-7}\text{ ph}\,\text{cm}^{-2}\,\text{s}^{-1}\)亮，即使在日内时间尺度上也可以检测到。我们检测到25个日内变率实例和大量通量加倍/减半实例，从而允许将排放区大小的上限限制在\(1.3\times 10^{16}\text{ cm}\text{--}1.1\times 10^{18}\text{ cm}\)范围内。源通常在LAT能量范围内表现为对数正态变化，解释为射流上的圆盘非平稳过程的印记，质子引发的强子级联或粒子加速度的随机波动。大多数0.3 ～ 300 GeV光谱与一个简单的幂律模型拟合得很好，显示了从\(\Gamma \sim 2.8\)到\(\Gamma \sim 1.2\)的很宽的光子指数范围，在强烈的latat波段活动期间，平均值为\(\Gamma _{\mathrm{mean}}=1.75\text{--}1.84\)，分布峰为\(\Gamma _{\mathrm{p}}=1.73\text{--}1.82\)。我们的光谱研究还揭示了x射线光子在Klein-Nishina体系中的逆康普顿上散射、相对论性磁重联、不同约束效率和随机加速度磁场中的一阶费米机制的特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Astrophysics and Space Science 地学天文-天文与天体物理

CiteScore

3.40

自引率

5.30%

发文量

106

审稿时长

2-4 weeks

期刊介绍： Astrophysics and Space Science publishes original contributions and invited reviews covering the entire range of astronomy, astrophysics, astrophysical cosmology, planetary and space science and the astrophysical aspects of astrobiology. This includes both observational and theoretical research, the techniques of astronomical instrumentation and data analysis and astronomical space instrumentation. We particularly welcome papers in the general fields of high-energy astrophysics, astrophysical and astrochemical studies of the interstellar medium including star formation, planetary astrophysics, the formation and evolution of galaxies and the evolution of large scale structure in the Universe. Papers in mathematical physics or in general relativity which do not establish clear astrophysical applications will no longer be considered. The journal also publishes topically selected special issues in research fields of particular scientific interest. These consist of both invited reviews and original research papers. Conference proceedings will not be considered. All papers published in the journal are subject to thorough and strict peer-reviewing. Astrophysics and Space Science features short publication times after acceptance and colour printing free of charge.