The case for a multi-channel polarization sensitive LIDAR for investigation of insolation-driven ices and atmospheres
Adrian J. Brown, Gorden Videen, Evgenij Zubko, Nicholas Heavens,, Nicole-Jeanne Schlegel, Patricio Becerra, Young-Jun Choi, Colin R. Meyer,, Tanya N. Harrison, Paul Hayne, Rachel W. Obbard, Tim Michaels, Michael J., Wolff, Scott Guzewich, Yongxiang Hu, Claire Newman
TL;DR
This paper advocates for developing multi-channel polarization-sensitive LIDARs to better investigate insolation-driven ices and atmospheres, emphasizing the need for technological advancements to enhance scientific understanding.
Contribution
It highlights the importance of multi-channel polarization-sensitive LIDARs and calls for community investment in their development for atmospheric and ice research.
Findings
Need for advanced LIDAR technology for atmospheric studies
Potential for improved ice and atmosphere investigation
Encouragement for community-driven development
Abstract
All LIDAR instruments are not the same, and advancement of LIDAR technology requires an ongoing interest and demand from the community to foster further development of the required components. The purpose of this paper is to make the community aware of the need for further technical development, and the potential payoff of investing experimental time, money and thought into the next generation of LIDARs.
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