这与电离层加热实验中的宽对称结构(BSS)的产生条件相一致。
This is consistent with the generating conditions of the BSS (Broad Symmetric Structure) in the ionospheric heating experiments.
一种超大功率的无线电波发射技术,该技术通过聚集一道波束并加热那些区域将电离层的一些区域抬高。
A super-powerful radiowave-beaming technology that lifts areas of the ionosphere by focusing a beam and heating those areas.
用此算法同时研究了典型中纬度电离层的加热特性并与以往对高纬度的结果进行了比较。
This algorithm is also applied to study the heated properties of the ionosphere at typical middle latitudes and the results are compared with that by previous authors for high latitudes.
地面入射的大功率无线电波能加热电离层等离子体,引起电离层电子温度和密度的扰动,实现电离层的地面人工变态。
The terrestrial ionospheric plasma can be heated by a powerful ground-based high-frequency radio wave, which results in the disturbance of the electron temperature and density.
的翻译是:结果可能是有益的这份文件,学习吸收区域的电离层的ionosphic加热实验中。
The results of this paper could be useful in studying the absorption region of the ionosphere in the ionosphic heating experiment.
使用这个模型,演化与D /E区电离层的加热时间,加热和冷却时间尺度的电子温度的档案,在本文的计算。
Using this model, evolution profile of electron temperature with heating time in ionospheric D/E region, heating and cooling time scale, are calculated in this paper.
使用这个模型,演化与D /E区电离层的加热时间,加热和冷却时间尺度的电子温度的档案,在本文的计算。
Using this model, evolution profile of electron temperature with heating time in ionospheric D/E region, heating and cooling time scale, are calculated in this paper.
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