Spectral features of ionospheric plasma waves excited by powerful HF radio waves radiated at frequencies near electron gyroharmonics and F2-layer critical frequency

Pub Date : 2023-06-29 DOI:10.12737/stp-92202312
Tatiana Borisova, Nataly Blagoveshchenskaya, Alexey Kalishin
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Abstract

We present the result of the studies into characteristics of high-latitude ionospheric F-region longitudinal plasma waves (Langmuir and ion-acoustic), caused by the impact of powerful HF radio waves of ordinary (O-mode) or extraordinary (X-mode) polarization of the EISCAT/Heating facility, Tromsø, Norway. The powerful HF radio waves on October 20, 2012 and February 26, 2013 were emitted in the direction of the magnetic zenith with a step change in the effective radiation power (ERP). The radiation frequency fH of the EISCAT/Heating facility on February 26, 2013 was close to the F2-layer critical frequency foF2 (fH/foF2~1) and exceeded the electron gyroresonance frequency fH>5fce. On October 20, 2012, the conditions fH/foF2~0.85–0.95 and fH<6fce were fulfilled. Analysis of EISCAT measurements of an incoherent scatter radar (ISR) at a frequency of 930 MHz, spatially aligned with the heating facility for radiation conditions ERP<200 MW, has shown that parametric decay instabilities are excited at the ionospheric heights where the pump frequency is close to the plasma Langmuir frequency, fH≈fPL. We have studied peculiarities of excitation of the decay parametric instabilities as a function of height in the ionosphere and pump wave polarization, the ratios between fH and foF2, and also fH and nfce.
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在电子回旋谐波和f2层临界频率附近辐射的强高频无线电波激发的电离层等离子体波的光谱特征
我们介绍了对挪威特罗姆瑟EISCAT/加热设施的普通(o模式)或特殊(x模式)极化的强大高频无线电波的影响所引起的高纬度电离层f区纵向等离子体波(Langmuir和离子声)特征的研究结果。2012年10月20日和2013年2月26日的强高频无线电波向磁天顶方向发射,有效辐射功率(ERP)呈阶跃变化。2013年2月26日EISCAT/Heating设施的辐射频率fH接近f2层临界频率foF2 (fH/foF2~1),超过了电子回旋共振频率fH>5fce。2012年10月20日,fH/foF2~ 0.85-0.95, fH<6fce条件得到满足。对非相干散射雷达(ISR)在930 MHz频率下的EISCAT测量结果的分析表明,在电离层高度,当泵浦频率接近等离子体朗米尔频率(fH≈fPL)时,参数衰减不稳定性被激发。我们研究了作为电离层高度和泵浦波极化、fH和foF2之比以及fH和fce之比的函数的衰减参量不稳定性的激发特性。
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