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Impact of vertical electron density distribution on ionospheric total electron content measurements based on spaceborne low-frequency SAR

机译：垂直电子密度分布对基于星载低频SAR的电离层总电子含量测量的影响

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The vertical electron density distribution can have a significant impact on ionospheric measurements of Total Electron Content (TEC) derived from estimates of Faraday rotation (FR) with spaceborne low-frequency SAR data. Using vertical electron density data and the IGRF-12 magnetic field model, simulations of FR under different vertical electron density distributions for an L-band SAR have been performed. The usual approximation that the geometric and magnetic field parameters can be estimated at 400 km when converting FR to TEC is shown to cause significant errors, especially for regions at low latitude and near the zero FR line.

机译：垂直电子密度分布会对电离层的总电子含量（TEC）的测量产生重大影响，该总电子含量是根据法拉第旋转（FR）和星载低频SAR数据估算得出的。使用垂直电子密度数据和IGRF-12磁场模型，对L波段SAR在不同垂直电子密度分布下的FR进行了仿真。当将FR转换为TEC时，通常的估计几何和磁场参数可以估计在400 km处，这通常会引起重大误差，尤其是对于低纬度和零FR线附近的区域。

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《International Geoscience and Remote Sensing Symposium》|2017年|4421-4424|共4页
会议地点 Fort Worth(US)
作者
Wei Guo; Jie Chen; Wei Yang; Shaun Quegan;
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作者单位

School of Electronics and Information Engineering Beihang University Beijing 100191 China;

School of Mathematics and Statistics University of Sheffield Sheffield S37RH UK;

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关键词
Magnetic fields; Synthetic aperture radar; Ionosphere; Satellites; Faraday effect; Propagation; Density measurement;

机译：磁场;合成孔径雷达；电离层；卫星；法拉第效应传播;密度测量;

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1. A comparative study of Nigerian GNSS Reference Networks Global Positioning System (NIGNETs-GPS) vertical Total Electron Content (vTEC) measurements with the International Reference Ionosphere - Total Electron Content (IRI-TEC) predictions over Calabar, Nigeria [J] . Joseph Obu, Eucharia Okoro, Sivla William International Journal of Physical Sciences . 2018,第6期

机译：尼日利亚GNSS参考网络全球定位系统（NIGNETs-GPS）垂直总电子含量（vTEC）测量与国际参考电离层-尼日利亚卡拉巴尔的总电子含量（IRI-TEC）预测的比较研究
2. Spatiotemporal Distributions of the Electron Density in the Ionosphere by Records of the Total Electron Content and Phase of VLF Radio Signals [J] . Gavrilov B. G., Zetser Yu. I., Lyakhov A. N., Geomagnetism and aeronomy . 2017,第4期

机译：通过总电子含量和VLF无线电信号的相位记录的电离层中电子密度的时空分布
3. Reply to the comments of Le et al. (2011) on the paper "Total solar eclipse of July 22, 2009: Its impact on the total electron content and ionospheric electron density in the Indian Zone" by Sharma et al. (2010) [J] . Sharma S., Galav P., Dashora N., Journal of atmospheric and solar-terrestrial physics . 2011,第13期

机译：回复Le等人的评论。（2011）在Sharma等人的论文“ 2009年7月22日的日全食：对印度区总电子含量和电离层电子密度的影响”中。（2010年）
4. IMPACT OF VERTICAL ELECTRON DENSITY DISTRIBUTION ON IONOSPHERIC TOTAL ELECTRON CONTENT MEASUREMENTS BASED ON SPACEBORNE LOW-FREQUENCY SAR [C] . Wei Guo, Jie Chen, Shaun Quegan, IEEE International Geoscience and Remote Sensing Symposium . 2017

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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. Earths ionosphere D-region vertical electron density profile data during March 1-31 2017 according to high-latitudinal Tumanny observatory partial reflection radar measurements and Polar Geophysical Institutes model [O] . Aleksandr Gomonov, Roman Yurik, Oleg Zolotov 2020

机译：地球的电离层D区垂直电子密度剖面数据在2017年3月1日至31日根据高纬度肿瘤天文台部分反射雷达测量和极地地球物理学院的模型
7. Reconstruction of F2 layer peak electron density based on operational vertical total electron content maps [O] . Gerzen, Tatjana, Jakowski, Norbert, Wilken, Volker, 2013

机译：基于工作垂直总电子含量图重建F2层峰值电子密度
8. Automated Daily Process for Global Ionospheric Total Electron Content Maps and Satellite Ocean Altimeter Ionospheric Calibration Based on Global Positioning System Data [R] . Iijima, B., Harris, I., Ho, C., 1999

机译：基于全球定位系统数据的全球电离层总电子含量图和卫星海洋高度计电离层校准的自动化日程

Impact of vertical electron density distribution on ionospheric total electron content measurements based on spaceborne low-frequency SAR

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