电离层对太阳极紫外线变率的延迟响应

IF 0.9 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Advances in Radio Science Pub Date : 2018-09-04 DOI:10.5194/ARS-16-149-2018

Erik Schmölter, J. Berdermann, N. Jakowski, C. Jacobi, Rajesh Vaishnav

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引用次数: 13

摘要

摘要电离层的物理和化学过程是由与太阳辐射的复杂相互作用驱动的。电离层等离子体对太阳极紫外线和紫外线的变化特别敏感，其时间延迟在1至2天之间。这种延迟被认为与从下部电离层到F区的热层输送过程有关。在之前的分析中，使用F10.7指数对延迟进行了研究。本文介绍了基于GNSS TEC地图和EUV光谱通量数据组成的全面可靠数据库的电离层延迟初步结果。我们计划指定地理/地磁位置、海拔、季节、当地时间、地球物理和太阳辐射条件(如太阳活动水平)的各种依赖关系。本文首先给出了季节和波长区域对极紫外光的依赖性的初步结果。这些结果可以更深入地了解电离层过程，对依赖可靠的电离层天气预报的应用(例如GNSS误差分析、预测和缓解)具有重要意义。

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Delayed response of the ionosphere to solar EUV variability

Abstract. Physical and chemical processes in the ionosphere are driven by complex interactions with the solar radiation. The ionospheric plasma is in particular sensitive to solar EUV and UV variations with a time delay between one and two days. This delay is assumed to be related to thermospheric transport processes from the lower ionosphere to the F region. In previous analyses, the delay has been investigated using the F10.7 index. Here we present preliminary results of the ionospheric delay based on a comprehensive and reliable database consisting of GNSS TEC Maps and EUV spectral flux data. We plan to specify the various dependencies from geographic/geomagnetic location, altitude, season, local time, geophysical and solar radiation conditions such as the solar activity level. The first results for dependencies from seasons and wavelengths regions of the EUV are presented in this paper. These results can provide more insight into ionospheric processes and are of interest for applications dependent on reliable ionospheric weather forecasts, e.g. GNSS error analyses, prediction and mitigation.

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来源期刊

Advances in Radio Science ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

0.90

自引率

0.00%

发文量

审稿时长

45 weeks