Systematic study of intermediate-scale structures of equatorial plasma irregularities in the ionosphere based on CHAMP observations

Frontiers of Physics in China Pub Date : 2014-03-19 DOI:10.3389/fphy.2014.00015

H. Lühr, C. Xiong, Jaeheung Park, J. Rauberg

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引用次数: 29

Abstract

Equatorial spread-F ionospheric plasma irregularities on the night-side, commonly called equatorial plasma bubbles (EPB), include electron density variations over a wide range of spatial scales. Here we focus on intermediate-scale structures ranging from 100 m to 10 km, which play an important role in the evolution of EPBs. High-resolution CHAMP magnetic field measurements sampled along north-south track at 50 Hz are interpreted in terms of diamagnetic effect for illustrating the details of electron density variations. We provide the first comprehensive study on intermediate-scale density structures associated with EPBs, covering a whole solar cycle from 2000 to 2010. The large number of detected events, almost 9000, allows us to draw a detailed picture of the plasma fine structure. The occurrence of intermediate-scale events is strongly favoured by high solar flux. During times of F10.7 < 100 sfu practically no events were observed. The longitudinal distribution of our events with respect to season or local time agrees well with that of the EPBs, qualifying the fine structure as a common feature, but the occurrence rates are smaller by a factor of 4 during the period 2000-2005. Largest amplitude electron density variations appear at the poleward boundaries of plasma bubbles. Above the dip-equator recorded amplitudes are small and fall commonly below our resolution. Events can generally be found at local times between 19 and 24 LT, with a peak lasting from 20 to 22 LT. The signal spectrum can be approximated by a power law. Over the frequency range 1 – 25 Hz we observe spectral indices between -1.4 and -2.6 with peak occurrence rates around -1.9. There is a weak dependence observed of the spectral index on local time. Towards later hours the spectrum becomes shallower. Similarly for the latitude dependence, there is a preference of shallower spectra for latitudes poleward of the ionisation anomaly crest. Our data suggest that the generation of small plasma structure

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基于CHAMP观测的赤道电离层等离子体不规则中尺度结构的系统研究

赤道扩展-电离层等离子体在夜侧的不规则性，通常被称为赤道等离子体气泡(EPB)，包括在大范围空间尺度上的电子密度变化。本文重点研究了在epb演化过程中起重要作用的100 ~ 10 km中尺度结构。高分辨率CHAMP磁场测量沿着南北轨道在50赫兹采样解释了反磁效应，以说明电子密度变化的细节。本文首次对epb相关的中尺度密度结构进行了全面研究，涵盖了2000 - 2010年整个太阳周期。探测到的大量事件(近9000个)使我们能够绘制出等离子体精细结构的详细图像。高太阳通量强烈地促进了中等尺度事件的发生。在F10.7 < 100 sfu时，几乎没有观察到任何事件。我们的事件在季节或当地时间方面的纵向分布与epb的分布非常吻合，将精细结构作为一个共同特征，但2000-2005年期间的发生率要小4倍。最大振幅的电子密度变化出现在等离子体气泡的两极边界。在倾角赤道以上，记录到的振幅很小，通常低于我们的分辨率。事件通常发生在当地时间19至24 LT之间，峰值持续时间为20至22 LT。信号频谱可以用幂律来近似。在1 - 25hz频率范围内，我们观察到频谱指数在-1.4和-2.6之间，峰值发生率在-1.9左右。观测到的光谱指数对当地时间有微弱的依赖性。晚些时候，光谱变浅。同样地，对于纬度依赖，电离异常波峰向极地的纬度有较浅的光谱偏好。我们的数据表明，小等离子体结构的产生

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Frontiers of Physics in China

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>12 weeks