Estimation of the plasmasphere electron density and O~+/H~+ transition height from Irkutsk incoherent scatter data and GPS total electron content

B.G. Shpynev; D.S. Khabituev

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Estimation of the plasmasphere electron density and O~+/H~+ transition height from Irkutsk incoherent scatter data and GPS total electron content

机译：根据伊尔库茨克非相干散射数据和GPS总电子含量估算等离子层电子密度和O〜+ / H〜+跃迁高度

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Observations obtained using the Irkutsk Incoherent Scatter Radar (ISR) and GPS Total Electron Content (TEC) were used for estimation of the O~+/H~+ transition level and electron density distribution in the upper topside ionosphere and in the plasmasphere. We use a modified Chapman function where O~+/H~+ transition level is one of parameters to develop a model. On the base of this model we consider some examples of O~+/H~+ transition height dynamics and estimate the uncertainty of the method. We show that the transition height dynamics is very sensitive to parameters of neutral wind and it has specific variation on Irkutsk ISR site. The plasmasphere can contribute more than 50% to GPS TEC, and the input from plasmasphere can produce significant influence on GPS TEC variations.

机译：使用伊尔库茨克非相干散射雷达（ISR）和GPS总电子含量（TEC）获得的观测值用于估算上层电离层和等离子层中O〜+ / H〜+的跃迁能级和电子密度分布。我们使用改进的Chapman函数，其中O〜+ / H〜+跃迁水平是建立模型的参数之一。在此模型的基础上，我们考虑了O〜+ / H〜+跃迁高度动力学的一些示例，并估计了该方法的不确定性。我们表明，过渡高度动力学对中性风的参数非常敏感，并且在伊尔库茨克ISR站点上具有特定的变化。等离子层对GPS TEC的贡献超过50％，等离子层的输入会对GPS TEC的变化产生重大影响。

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《Journal of atmospheric and solar-terrestrial physics》 |2014年第null期|共6页
作者
B.G. Shpynev; D.S. Khabituev;
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正文语种 eng
中图分类大气科学（气象学）;
关键词
Incoherent scatter technique; GPS TEC; O~+/H~+ transition height;

机译：非相干散射技术;GPS TEC;O〜+ / H〜+过渡高度;

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专利

1. Estimation of the plasmasphere electron density and O~+/H~+ transition height from Irkutsk incoherent scatter data and GPS total electron content [J] . B.G. Shpynev, D.S. Khabituev Journal of atmospheric and solar-terrestrial physics . 2014,第Null期

机译：根据伊尔库茨克非相干散射数据和GPS总电子含量估算等离子层电子密度和O〜+ / H〜+跃迁高度
2. Validation of GRACE electron densities by incoherent scatter radar data and estimation of plasma scale height in the topside ionosphere [J] . Chao Xiong, Hermann Luehr, ShuYing Ma, Advances in space research . 2015,第8期

机译：通过非相干散射雷达数据验证GRACE电子密度并估算顶侧电离层的等离子体尺度高度
3. Intercomparisons of total electron content measurements using the Arecibo incoherent scatter radar and GPS [J] . Makela JJ., MacPherson B., Pi XQ., Geophysical Research Letters . 2000,第18期

机译：使用Arecibo非相干散射雷达和GPS测量总电子含量的比对
4. Variations of O+/H+ Transition Height over East Siberia from Joint Analysis of Irkutsk Incoherent Scatter Data and GPS Total Electron Content [C] . Denis S. Khabituev, Boris G. Shpynev Progress in electromagnetics research symposium . 2015

机译：从伊尔库茨克非相干散射数据和GPS总电子含量的联合分析得出西伯利亚东部O + / H +跃迁高度的变化
5. An algorithm for accurate ionospheric total electron content and receiver bias estimation using GPS measurements. [D] . Bourne, Harrison W. 2016

机译：一种用于精确电离层总电子含量和使用GPS测量估算接收器偏差的算法。
6. F2-layer height of the peak electron density (hmF2) dataset employed in Inferring Vertical Plasma Drift – Data of Best fit [O] . B.O. Adebesin, J.O. Adeniyi 2018

机译：推断垂直等离子漂移中使用的峰值电子密度（hmF2）数据集的F2层高度–最佳拟合数据
7. Regularized estimation of vertical total electron content from GPS data for a desired time period [O] . Arikan F., Erol, C.B., Arikan, O. 2004

机译：根据所需时间段的GPS数据进行垂直总电子含量的规则估计
8. Comparison of GPS AND Incoherent Scatter Measurements of the Total Electron Content. [R] . Coster, A. J., Gaposchkin, E. M., Thornton, L. E. 1990

机译：Gps和非相干散射测量总电子含量的比较。

Estimation of the plasmasphere electron density and O~+/H~+ transition height from Irkutsk incoherent scatter data and GPS total electron content

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