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The case for a multi-channel polarization sensitive LIDAR for investigation of insolation-driven ices and atmospheres
The case for a multi-channel polarization sensitive LIDAR for investigation of insolation-driven ices and atmospheres
2021
Adrian J. Brown
Gorden Videen
Shane Byrne
Evgenij Zubko
Serina Diniega
Nicholas G. Heavens
Michael Mishchenko
Nicole-Jeanne Schlegel
Sungsoo Kim
Patricio Becerra
Susan J. Conway
Young-Jun Choi
K. E. Herkenhoff
Colin R. Meyer
Michael Mischna
Tanya N. Harrison
Anthony Colaprete
Paul O. Hayne
Minsup Jeong
Rachel W. Obbard
Isaac B. Smith
T. I. Michaels
M. R. Perry
Michael J. Wolff
John E. Moores
Scott D. Guzewich
Christine S. Hvidberg
Yongxiang Hu
Jonathan A. R. Rall
Claire E. Newman
Sylvain Piqueux
Chae Kyung Sim
Robert Lillis
Leslie Tamppari
Peter B. Buhler
Wendy M. Calvin
Margaret E. Landis
Jennifer Hanley
Timothy J. Stubbs
Nathaniel E. Putzig
Aymeric Spiga
Timothy N. Titus
Ali M. Bramson
Bonnie Meineke
Michael Veto
Jack Holt
Bryana L. Henderson
Lori K. Fenton
Alain Khayat
Tim McConnochie
Devanshu Jha
Keywords:
Insolation
Remote sensing
Environmental science
multi channel
Lidar
polarization sensitive
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