Extremely intense (up to 2 V/m) and fine-structured (1-5 km) electric fields have been observed by the Freja satellite at altitudes of 1400-1770 km. To study the occurrence and characteristics of these intense electric field events, a database was set up by searching 7 months' worth of Freja data for events with peak values greater than 200 mV/m. The intense electric field events ale distributed over all local times, but they are mostly concentrated to the midnight and early morning sector of the amoral oval. The events are seen to be associated with low ambient ionospheric conductivities, but are not activity dependent. The most intense events (located in the midnight sector) are associated with the smallest scale sires, whereas the less intense events on the dayside have larger scale sites. The findings are consistent with the interpretation that a majority of the intense electric field events observed by Freja are associated with the small-scale, east-west-aligned, low-conductivity bands devoid of amoral emissions, known as black amoral bands, or with the curls that may develop when these bands go unstable. Several observations of diverging electric fields of around 1 V/m at 800 km altitude, within the southern amoral oval, may serve as support for the prediction that intense electric fields should exist also at ionospheric altitudes. [References: 15]
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机译:Freja卫星在1400至1770 km的高度观测到了极强的电场(高达2 V / m)和精细结构的电场(1-5 km)。为了研究这些强电场事件的发生和特征,通过在7个月的Freja数据中搜索峰值大于200 mV / m的事件来建立数据库。强烈的电场事件在整个地方都散布着,但它们大多集中在椭圆形椭圆形的午夜和清晨。这些事件被认为与低环境电离层电导率有关,但与活动无关。强度最大的事件(位于午夜区域)与规模最小的母马相关,而白天强度较小的事件则具有较大的规模。这些发现与以下解释是一致的:Freja观察到的大多数强电场事件都与小规模,东西向对齐的,低导电性的,无无辐射的波段(称为黑色无波段)相关,或者与这些乐队变得不稳定时可能会出现的卷发。在南部的非圆形椭圆形内,在800 km高度处1 V / m左右的发散电场的一些观察结果可以支持以下预测:在电离层高度也应存在强电场。 [参考:15]
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