The future of lidar in planetary science

Frontiers in Remote Sensing Pub Date : 2022-10-21 DOI:10.3389/frsen.2022.1042460
D. Cremons
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引用次数: 1

Abstract

Lidar has enabled advances in the knowledge of the Solar System through geophysical and atmospheric studies of the Moon, Mercury, Mars, and several asteroids. The technique will continue to be used to obtain high-precision topographic data from orbit, but new techniques on the horizon are suited to uniquely address fundamental planetary science questions related to the evolution of airless bodies, volatile delivery and sequestration, atmospheric transport, and small body formation and evolution. This perspective highlights the history of lidar in planetary science and identifies several measurement approaches that may be adopted in the coming years.
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激光雷达在行星科学中的未来
通过对月球、水星、火星和一些小行星的地球物理和大气研究,激光雷达使我们对太阳系的认识取得了进步。该技术将继续用于从轨道上获得高精度的地形数据,但即将出现的新技术适合于独特地解决与无空气天体的演化、挥发性物质的输送和封存、大气输送以及小天体的形成和演化有关的基本行星科学问题。这一观点强调了激光雷达在行星科学中的历史,并确定了未来几年可能采用的几种测量方法。
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Frontiers in Remote Sensing
Frontiers in Remote Sensing
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