Direct Measurements of Synchrotron-emitting Electrons at Near-Sun Shocks

I. C. Jebaraj, O. V. Agapitov, M. Gedalin, L. Vuorinen, M. Miceli, C. M. S. Cohen, A. Voshchepynets, A. Kouloumvakos, N. Dresing, A. Marmyleva, V. Krasnoselskikh, M. Balikhin, J. G. Mitchell, A. W. Labrador, N. Wijsen, E. Palmerio, L. Colomban, J. Pomoell, E. K. J. Kilpua, M. Pulupa, F. S. Mozer, N. E. Raouafi, D. J. McComas, S. D. Bale and R. Vainio
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Abstract

In this study, we present the first-ever direct measurements of synchrotron-emitting heliospheric traveling shocks, intercepted by the Parker Solar Probe (PSP) during its close encounters. Given that much of our understanding of powerful astrophysical shocks is derived from synchrotron radiation, these observations by PSP provide an unprecedented opportunity to explore how shocks accelerate relativistic electrons and the conditions under which they emit radiation. The probe’s unparalleled capabilities to measure both electromagnetic fields and energetic particles with high precision in the near-Sun environment has allowed us to directly correlate the distribution of relativistic electrons with the resulting photon emissions. Our findings reveal that strong quasi-parallel shocks emit radiation at significantly higher intensities than quasi-perpendicular shocks due to the efficient acceleration of ultrarelativistic electrons. These experimental results are consistent with theory and recent observations of supernova remnant shocks and advance our understanding of shock physics across diverse space environments.
近太阳冲击下同步辐射电子的直接测量
在这项研究中,我们首次直接测量了帕克太阳探测器(PSP)在近距离碰撞时截获的同步辐射日光层行进冲击。鉴于我们对强大的天体物理冲击的了解大多来自同步辐射,帕克太阳探测器的这些观测为探索冲击如何加速相对论电子以及它们在何种条件下发射辐射提供了前所未有的机会。该探测器在近太阳环境中高精度测量电磁场和高能粒子的能力无与伦比,这使我们能够将相对论电子的分布与由此产生的光子辐射直接联系起来。我们的研究结果表明,由于超相对论电子的有效加速,准平行强冲击发出的辐射强度明显高于准垂直冲击。这些实验结果与理论和最近对超新星残余冲击的观测结果一致,并推进了我们对不同空间环境中冲击物理学的理解。
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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