Marc Hansen, Daniela Banyś, Mark Clilverd, David Wenzel, M. Mainul Hoque
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引用次数: 0
摘要
摘要电离层下甚低频(VLF)无线电信号在大约 60-90 千米高度的电离层 D 区被自由电子反射,可以传播很远的距离,因此有助于监测 D 区的状态或太阳耀斑引起的扰动。在 D 区高度,电离层主要被太阳莱曼-α 辐射电离。甚低频信号的反射特性取决于 D 区的状态和动态,而 D 区受莱曼-α 辐射的影响很大。虽然接收到的地面甚低频信号的振幅在一年中会随着太阳天顶角的变化而变化,但甚低频振幅在十月前后会出现明显的急剧下降,因此被称为 "十月效应"。本研究调查了 "十月效应 "的发生及其与经纬度的关系。我们开发了一种在长期甚低频数据中检测十月效应发生情况的方法,并得出了表征信号振幅骤减的关键参数(开始和结束日期、强度)。利用分布在低、中、高纬度地区的甚低频台站网络进行的调查表明,十月效应的发生具有明显的纬度依赖性,在高纬度地区比在中纬度地区发生得早。没有发现低纬度特征。
Investigation of the October effect in VLF signals
Abstract. Subionospheric Very Low Frequency (VLF) radio signals are reflected by free electrons in the ionospheric D-region at about 60–90 km altitude and can propagate over long distances, which makes them useful for monitoring the state of the D-region or perturbations due to solar flares. At the D-region height, the ionosphere is mainly ionized by the solar Lyman-α radiation. The reflection characteristics of VLF signals depend on the state and dynamics of the D-region which is highly influenced by the Lyman-α radiation. Although the amplitude of the received terrestrial VLF signal changes as a function of solar zenith angle over the course of the year, the VLF amplitude shows a distinctive sharp decrease around October, which is hence called the “October effect”. This study investigates the occurrence of the October effect and its dependencies on latitude and longitude. We developed a method to detect the occurrence of the October effect in the long-term VLF data and derive key parameters characterizing (start and end date, intensity) the sudden decrease in the signal amplitude. This investigation using a network of VLF stations distributed over low, middle and high latitude regions shows that the occurrence of the October effect has a clear latitudinal dependency, occurring earlier in high-latitude regions than at mid-latitudes. No low latitude signature is found.
期刊介绍:
Annales Geophysicae (ANGEO) is a not-for-profit international multi- and inter-disciplinary scientific open-access journal in the field of solar–terrestrial and planetary sciences. ANGEO publishes original articles and short communications (letters) on research of the Sun–Earth system, including the science of space weather, solar–terrestrial plasma physics, the Earth''s ionosphere and atmosphere, the magnetosphere, and the study of planets and planetary systems, the interaction between the different spheres of a planet, and the interaction across the planetary system. Topics range from space weathering, planetary magnetic field, and planetary interior and surface dynamics to the formation and evolution of planetary systems.