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引用次数: 1
摘要
本文对地磁扰动时大圆传输路径与磁极的接近程度与信号稳定性之间的关系进行了定量研究。在Riverhead, Long Island和San Juan, Puerto Rico观察到的来自欧洲的接收,在正常和干扰时期进行了比较。从欧洲到圣胡安的大圆路径比到河头的类似路径距离北极约1000英里。扼要说明在这两个地点使用的重复设备和天线系统。一段时间以来,人们已经知道,更靠南的传输路径显然不太容易受到伴随磁干扰的影响。覆盖数年的观测结果证实了预期的信号稳定性与传输路径到磁极的距离之间的关系。在干扰期间,圣胡安的欧洲信号平均优势约为8分贝。通过对夜间截断效应和相关现象的比较,在许多情况下都注意到在较南的路径上电离层电离程度较高的证据。
The Relation between Radio-Transmission Path and Magnetic-Storm Effects
This paper presents the results of a quantitative study of the relationship between the proximity of great-circle transmission paths to the magnetic pole and of signal stability during terrestrial magnetic disturbances. Reception from Europe as observed at Riverhead, Long Island, and San Juan, Puerto Rico, is compared during normal and disturbed periods. The great-circle path from Europe to San Juan is about 1000 miles farther from the north magnetic pole than a similar path to Riverhead. A brief description of the duplicate equipment and antenna systems employed at the two locations is included. It has been known for some time that the more southerly transmission paths are apparently less susceptible to effects accompanying magnetic disturbances. The results of observations covering a period of years confirm the anticipated relationship between signal stability and proximity of the transmission path to the magnetic pole. The average advantage of San Juan over Riverhead for European signals during disturbed periods is found to be approximately 8 decibels. Evidence of higher ionospheric ionization over the more southerly path is noted in a number of cases by a comparison of nighttime cutoff effects and allied phenomena.
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