A Direct Detection LiDAR Detector for the Europa Lander Concept

Punjiya, Meera; Ryu, Kevin; Aull, Brian; Gregory, Matt; McIntosh, K. Alexander; Donlon, Kevan; Brattain, Mike; Pretorius, Herman; Nothern, Denis; Karolyshyn, Thomas; Mihallari, Jorgo; Kranefeld, Zach; Duerr, Erik; Katake, Anup; San Martin, Alejandro Miguel

A Direct Detection LiDAR Detector for the Europa Lander Concept

Punjiya, Meera; Ryu, Kevin; Aull, Brian; Gregory, Matt; McIntosh, K. Alexander; Donlon, Kevan; Brattain, Mike; Pretorius, Herman; Nothern, Denis; Karolyshyn, Thomas; Mihallari, Jorgo; Kranefeld, Zach; Duerr, Erik; Katake, Anup; San Martin, Alejandro Miguel

URI: http://hdl.handle.net/2014/56132

Date: 2022-04-03

Publisher: Pasadena, CA: Jet Propulsion Laboratory, National Aeronautics and Space Administration, 2022

Citation: SPIE Defense + Commercial Sensing 2022, Orlando, Florida, April 3-7, 2022

Abstract:

NASA's Jet Propulsion Laboratory is developing a Europa Lander astrobiology mission concept to search for biosignatures within Europa’s subsurface. However, Europa’s rugged terrain presents a number of physical hazards for landing. MIT Lincoln Laboratory is designing a radiation-hardened real-time direct-detection LIDAR system at 532nm to aid with autonomous hazard avoidance and landing site selection for this Europa Lander concept. The detector for this system is a 2048x32 array of silicon Geiger-mode APDs and covers the required field-of-view in one dimension, removing the need for 2D stitching and enabling real-time data processing. Detector design, improvements for radiation tolerance and component characterization results are presented.

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