Orbital Radar Sounding of Earth’s Ice Sheets: Opportunities and Challenges

Owing to the enormous amount of frozen water and the particularity of heat exchange, polar ice sheets act as an important indicator and amplifier of global climate change. However, the detection and cognition of the tomographic structure of polar ice sheets remain insufficient due to the special geo...

Full description

Bibliographic Details
Main Authors: Peng XIAO, Zhitong YU, Zhuoqi CHEN, Xiangbin CUI, Bo ZHAO, Shinan LANG, Meng LI, Luojia HU, Yan HUANG, Min LIU, Cheng WANG, Liang CHEN, Lu LIU, Xiaohong SUI, Chunzhu YUAN
Format: Article in Journal/Newspaper
Language:English
Chinese
Published: China Science Publishing & Media Ltd. (CSPM) 2022
Subjects:
orbital ice sounding radar
tomography
distributed radar
polar ice sheets
global climate change
Electricity and magnetism
QC501-766
Ice Sheet
Online Access:https://doi.org/10.12000/JR21196
https://doaj.org/article/807182b166cc4d28b00688ba4298345c
Description
Summary:Owing to the enormous amount of frozen water and the particularity of heat exchange, polar ice sheets act as an important indicator and amplifier of global climate change. However, the detection and cognition of the tomographic structure of polar ice sheets remain insufficient due to the special geographical location and harsh weather. Benefit from the advantage of strong penetrability and high-precision range measurement, the ice sounding radar is an optimal instrument for tomographic detection of polar ice sheets, which significantly promotes the development of polar science. Nevertheless, existing radar satellites still cannot detect ice beds in depth because of the complex low-frequency signal propagation in ice and an extremely long operating distance. This study focuses on the scientific objectives (spatial resolution: 100 m and revisit time: 3 months) and presents an in-depth analysis of the key problems of orbital ice sounding radar, including transmission attenuation, firn clutter, and cross-track resolution deterioration. With reference to the current state and trend of radar satellite technology, we proved the feasibility of the application of distributed Synthetic Aperture Radar (SAR) on the microsatellite platform for ice bed detection, identified the key parameters of distributed SAR and the technical challenges of orbital radar sounding system for polar ice sheet tomographic observation, and further explored the implementation scheme.

Similar Items