RATAN-600多波长观测数据分析新方法的结果

Proceedings of The Multifaceted Universe: Theory and Observations - 2022 — PoS(MUTO2022) Pub Date : 2022-09-17 DOI:10.22323/1.425.0007

N. Ovchinnikova, M. Lebedev, V. Bogod, Anatoliy Mikhailovich Ripak, A. A. Storozhenko

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引用次数: 0

摘要

采用多元统计方法对RATAN-600射电望远镜在1-3 GHz和3-18 GHz范围内的太阳观测数据进行了处理。这种分析使我们能够通过各自的通量光谱区分太阳活跃区域(ARs)中的射电源，并跟踪它们在整个时间内的演变，以及揭示在狭窄的光谱范围内或在某些区域的快速过程。我们发现，我们可以在我们的数据中分离出产生耀斑的ar中的扭曲磁环，并检测到其中的非热电子引起的回旋同步加速器无线电发射。此外，我们在几个AR中检测到接近1.6 GHz的频率变化的吸收谱线，这可能归因于冷日冕物质中的羟基，例如太阳日珥和日冕雨。宇宙:

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Results of a new approach to the analysis of multi-wavelength observations data obtained with RATAN-600

Data from solar observations with the RATAN-600 radio telescope in the 1–3 GHz and 3–18 GHz ranges were processed using multivariate statistical methods. This kind of analysis allows us to differentiate the radio sources in the active regions (ARs) on the Sun by their individual flux spectra and trace their evolution during the entire time they have been in sight, as well as to reveal fast processes in a narrow spectral range or in certain areas. It was found that we can isolate twisted magnetic loops in flare-productive ARs in our data, and detect gyrosynchrotron radio emission caused by the non-thermal electrons inside them. Also, we detected an absorption line close to 1.6 GHz with a variable frequency shift in several AR. It may be attributed to the hydroxyl in cool coronal mass, such as solar prominences and coronal rain. The Universe:

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Proceedings of The Multifaceted Universe: Theory and Observations - 2022 — PoS(MUTO2022)

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