Title :
Quantitative analysis of Faraday rotation impacts on image formation of spaceborne VHF/UHF-SAR
Author :
Wei Guo ; Jie Chen ; Zhuo Li
Author_Institution :
Sch. of Electron. & Inf. Eng., BeiHang Univ., Beijing, China
Abstract :
The performance of spaceborne synthetic aperture radar (SAR) at lower frequencies, such as VHF/UHF bands, is affected by ionosphere effects, especially Faraday rotation (FR). A quantitative analysis of Faraday rotation impacts on spaceborne VHF/UHF-SAR image formation is presented in this paper. The error models of FR resulting from calm Total Electron Content (TEC) and fluctuant TEC, for Linearly Polarized (LP) and Dual Circularly Polarized (DCP) mode, are established. The simulation results indicate that for LP mode Faraday rotation effect on azimuth signal can be neglected, while the range signal is seriously affected, bur for DCP mode, the error in both range and azimuth signals is negligible. Therefore, DCP mode is a better choice to decrease the effect on image focusing caused by FR effect.
Keywords :
Faraday effect; ionospheric electromagnetic wave propagation; ionospheric techniques; synthetic aperture radar; total electron content (atmosphere); DCP mode; Faraday rotation quantitative analysis; LP mode; UHF band; VHF band; dual circularly polarized; fluctuant TEC; ionosphere effects; linearly polarized; spaceborne UHF-SAR formation; spaceborne VHF-SAR formation; total electron content; Azimuth; Faraday effect; Ionosphere; Simulation; Spaceborne radar; Synthetic aperture radar; Dual Circularly Polarized; Faraday rotation; Linearly Polarized; Spaceborne SAR;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2014 IEEE International
Conference_Location :
Quebec City, QC
DOI :
10.1109/IGARSS.2014.6946510
