中低纬度地区调制加热层极低频激发的理论模拟

2021 13th International Symposium on Antennas, Propagation and EM Theory (ISAPE) Pub Date : 2021-12-01 DOI:10.1109/isape54070.2021.9753586

Jutao Yang, Qingliang Li, Shuji Hao, Yubo Yan, Jing Chen

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引用次数: 0

摘要

为了研究电离层调制加热F调制极低频(ELF)辐射源在中低纬度地区的特性，基于电离层驱动电流理论，建立了调幅加热F层激发极低频(ELF)的数值模型。根据该模型的分析，在调幅加热波的作用下，会使电子压力梯度按调制频率振荡，形成振荡的抗磁环电流，进而激励极低频辐射源。最小值和双峰形态分布表明，随着调制频率的增加，辐射源偶极矩强度迅速降低。

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Theoretical simulation of ELF excitation in modulated heating F layers in low and middle latitudes

In order to study the characteristics of extremely low frequency (ELF) radiation source modulated by ionospheric modulation heating F in low and middle latitudes, based on the theory of ionospheric driving current, a numerical model of ELF excited by amplitude modulation heating F layer was established. According to the analysis of this model, under the action of amplitude modulation heating wave, it will cause the electronic pressure gradient to oscillate according to the modulation frequency to form an oscillating diamagnetic ring current, which in turn excites the ELF radiation source. The minimum value and the distribution of double-peak morphology, the dipole moment intensity of the radiation source decreases rapidly with the increase of the modulation frequency.

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2021 13th International Symposium on Antennas, Propagation and EM Theory (ISAPE)

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