Online system for analyzing currents in the upper ionosphere according to Swarm satellite data

Solnechno-Zemnaya Fizika Pub Date : 2023-12-20 DOI:10.12737/szf-94202314

Ivan Belov, Anatoly Soloviev, V. Pilipenko, Mikhail Dobrovolskiy, Shamil Bogoutdinov, Kirill Kalinkin

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Abstract

In this paper, we describe the TeslaSwarm online system [http://aleph.gcras.ru/teslaswarm] for visualizing field-aligned currents in the upper ionosphere, using data from Swarm low-orbit satellites. The system provides researchers with a simple and convenient tool for event selection and detailed analysis of currents and electromagnetic fields in the upper ionosphere. The system user can select satellite passages over a given region, visualize the geomagnetic field structure and field-aligned currents, compare the pattern of field-aligned currents with the auroral particle precipitation map, using the OVATION-Prime model, and save the selected parameters in a file in text format. We demonstrate advantages of the developed system over its foreign analogues. In practice, the collection and pre-processing of raw data for experiments make up about 80 % of all work with data. The proposed online system largely saves the user from the most time-consuming work of choosing the required satellite passage segments and calculating the characteristics of interest from raw measurements.

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根据 Swarm 卫星数据分析电离层上部电流的在线系统

本文介绍了 TeslaSwarm 在线系统[http://aleph.gcras.ru/teslaswarm]，该系统利用 Swarm 低轨道卫星提供的数据对上电离层中的场对准电流进行可视化处理。该系统为研究人员提供了一个简单方便的工具，用于选择事件和详细分析上电离层中的电流和电磁场。系统用户可以选择卫星经过的特定区域，可视化地磁场结构和场对齐电流，使用 OVATION-Prime 模型比较场对齐电流模式和极光粒子沉淀图，并将所选参数保存在文本格式的文件中。我们展示了所开发系统与国外类似系统相比的优势。在实践中，收集和预处理实验原始数据约占所有数据工作的 80%。建议的在线系统在很大程度上为用户节省了选择所需的卫星通过段和计算原始测量值的相关特征等最耗时的工作。

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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Solnechno-Zemnaya Fizika

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