ABOUT RESEARCH PROGRAMS AT THE RADIO TELESCOPE "URAN-4" IRA NASU – MONITORING OF FLUXES OF POWERFUL RADIO SOURCES, STUDY OF THE SUN'S SUPERCORONA, OBSERVATIONS OF SOLAR ECLIPSE

Odessa Astronomical Publications Pub Date : 2023-12-04 DOI:10.18524/1810-4215.2023.36.290143

A. Sukharev, M. Ryabov, V. V. Galanin, V. G. Komendant

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Abstract

During 2020–2023, an initiative series of observation programs was carried out on a radiometer designed and manufactured by V.V. Galanin. Among them are observations of ionospheric scintillations of powerful radio sources Cas A, Cyg A, Vir A, Tau A, Per A, on the URAN-4 radio telescope (IRA NASU) at frequencies of 20 and 25 MHz. The observations were carried out at various states of Solar and geomagnetic activity and allow us to analyze the response of the ionosphere in the region of the Odessa Magnetic Anomaly to disturbing events. It was found that the radio source 3C 84 (Per A) is the least noisy at the location of the URAN-4 antenna and is well suited for studying the ionospheric response during magnetic storms. The recorded scintillation periods of the studied radio sources, on "calm" days, are in the range of 1-2 minutes. During magnetic storms, the periods of scintillations are reduced to 10-30 seconds. The paper considers the features of the response of scintillations of different radio sources to a magnetic storm, since they shine through different spatial regions of the ionosphere. Of particular interest are observations of the radio source Tau A (3C 144), which annually, in June, shines through the Solar Supercorona. Processing scans of such observations of the 3C 144 source shows an increase flux variations with an average "period" of about 5-10 seconds. Observations were also made to record the features of radio background variations during partial Solar eclipse. It is shown that during a Solar eclipse, the level of background radio noise increases significantly. At the same time, the background level on the next day after the eclipse was still quite high. A more detailed analysis of this effect is planned and, if possible, repeated observations.

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关于射电望远镜 "乌兰-4"（URAN-4）的研究计划--监测强大射电源的通量、研究日冕上层、观测日食

2020-2023 年期间，在 V.V. Galanin 设计和制造的辐射计上实施了一系列观测计划。其中包括在URAN-4射电望远镜（IRA NASU）上以20和25兆赫的频率对强大射电源Cas A、Cyg A、Vir A、Tau A、Per A的电离层闪烁进行观测。这些观测是在太阳和地磁活动的不同状态下进行的，使我们能够分析敖德萨磁异常区域电离层对干扰事件的反应。研究发现，射电源 3C 84（Per A）在 URAN-4 天线所在位置的噪声最小，非常适合研究磁暴期间电离层的响应。在 "平静 "的日子里，所研究的射电源记录的闪烁周期在 1-2 分钟之间。在磁暴期间，闪烁周期缩短到 10-30 秒。本文探讨了不同射电源的闪烁对磁暴的响应特征，因为它们通过电离层的不同空间区域发光。对射电源 Tau A（3C 144）的观测尤其令人感兴趣，该射电源每年 6 月都会穿过日冕上层。对 3C 144 辐射源的此类观测的处理扫描显示，平均 "周期 "约为 5-10 秒的通量变化在增加。观测还记录了日偏食期间无线电背景变化的特征。观测结果表明，在日食期间，无线电背景噪声水平会显著增加。同时，日食翌日的背景水平仍然相当高。计划对这一影响进行更详细的分析，并在可能的情况下进行重复观测。

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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Odessa Astronomical Publications

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15 weeks