The case for a multi-channel polarization sensitive LIDAR for investigation of insolation-driven ices and atmospheres Planetary Science Decadal Survey White Paper-Reference-Cited by-同舟云学术

The case for a multi-channel polarization sensitive LIDAR for investigation of insolation-driven ices and atmospheres Planetary Science Decadal Survey White Paper

Published:2020-07-23 Issue: Volume: Page:
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Author:

Brown Adrian Jon¹^ORCID,Videen Gorden²,Zubko Evgenij³,Heavens Nick²,Schlegel Nicole-Jeanne⁴,Beccera Pat⁵,Meyer Colin⁶,Harrison Tanya⁷,Hayne Paul⁸,Obbard Rachel⁹,Michaels Tim⁹,Wolff Michael J²,Guzewich Scott D.¹⁰,Newman Claire¹¹,Grund Christian J¹²,Sim Chae Kyung³,Spiga Aymeric¹³,Buhler Peter B¹⁴,Landis Margaret E¹⁵,Stubbs Timothy J¹⁰,Spiga Aymeric¹³,Jha Devanshu¹⁶

Affiliation:

1. Plancius Research

2. Space Sciences Institute

3. Kyung Hee Space Institute

4. JPL

5. Bern University

6. Dartmouth

7. Outer Space Institute

8. Colorado

9. SETI Institute

10. Goddard Space Flight Center

11. Aeolis Research

12. Other

13. LMD Jussieu

14. JPL/Caltech

15. LASP Colorado

16. MVJCE, India

Publisher

Wiley

Reference82 articles.

1. Brown Adrian J. Timothy I. Michaels Shane Byrne Wenbo Sun Timothy N. Titus Anthony

2. Colaprete Michael J. Wolff and Gorden Videen. "The Science Case for a Modern Multi

3. Wavelength Polarization-Sensitive LIDAR in Orbit around Mars." Journal of Quantitative

4. The case for a modern multiwavelength, polarization-sensitive LIDAR in orbit around Mars

5. https://doi.org/10.1016/j.jqsrt.2014.10.021.

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