Reconnection Nanojets in an Erupting Solar Filament with Unprecedented High Speeds

The Astrophysical Journal Letters Pub Date : 2025-05-14 DOI:10.3847/2041-8213/add33a

Yuhang Gao, Hui Tian, David Berghmans, Yadan Duan, Tom Van Doorsselaere, Hechao Chen and Emil Kraaikamp

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Abstract

Solar nanojets are small-scale jets generated by component magnetic reconnection, characterized by collimated plasma motion perpendicular to the reconnecting magnetic field lines. As an indicator of nanoflare events, they are believed to play a significant role in coronal heating. Using high-resolution extreme-ultraviolet imaging observations from the Extreme Ultraviolet Imager on board the Solar Orbiter mission, we identified 27 nanojets in an erupting filament on 2024 September 30. They are potentially associated with the untwisting of magnetic field lines of the filament. Most nanojets exhibit velocities around 450 km s−1, with the fastest reaching approximately 800 km s−1, significantly higher than previously reported but comparable to the typical coronal Alfvén speed. To our knowledge, these are the highest speeds ever reported for small-scale jets (less than ∼1 Mm wide) in the solar atmosphere. Our findings suggest that these nanoflare-type phenomena can be more dynamic than previously recognized and may contribute to the energy release process of solar eruptions and the heating of coronal active regions.

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以前所未有的高速在太阳灯丝喷发中重新连接纳米射流

太阳纳米喷流是由组件磁重联产生的小规模喷流，其特征是垂直于重联磁力线的准直等离子体运动。作为纳米耀斑事件的指示物，它们被认为在日冕加热中起着重要作用。利用太阳轨道飞行器上的极紫外成像仪的高分辨率极紫外成像观测，我们在2024年9月30日的一次喷发中发现了27个纳米射流。它们可能与灯丝磁场线的解扭有关。大多数纳米射流的速度约为450 km / s - 1，最快的速度约为800 km / s - 1，明显高于先前报道的速度，但与典型的日冕alfvsamn速度相当。据我们所知，这是迄今为止报道的太阳大气中小规模喷流（宽度小于1毫米）的最高速度。我们的研究结果表明，这些纳米耀斑类型的现象可能比以前认识到的更加动态，并且可能有助于太阳爆发的能量释放过程和日冕活动区的加热。

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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The Astrophysical Journal Letters

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