Acquisition Source
Marshall Space Flight Center
Document Type
Technical Publication (TP)
Authors
Douglas L Rickman (Jacobs (United States) Dallas, Texas, United States) Paul Douglas Archer (Jacobs (United States) Dallas, Texas, United States) Rostislav Nikolayevich Kovtun (Jacobs (United States) Dallas, Texas, United States) M. Barmatz (California Institute of Technology Pasadena, United States) Matthew Creedon (Washington Mills Electro Minerals) Brandon Dotson (University of Central Florida Orlando, Florida, United States) Kerri Donaldson Hanna (University of Central Florida Orlando, Florida, United States) Jared Michael Long-fox (University of Central Florida Orlando, Florida, United States) Catherine Millwater (University of Central Florida Orlando, Florida, United States) Michael R Effinger (Marshall Space Flight Center Redstone Arsenal, United States) Ronald M. Hutcheon (Microwave Properties North) Yong-Rak Kim (Texas A&M University – Central Texas Killeen, United States) Austin Partridge (University of Texas San Antonio) Alan Whittington (The University of Texas at San Antonio San Antonio, United States) Holly Shulman (Alfred University Alfred, United States) Ryan P Wilkerson (Los Alamos National Laboratory Los Alamos, United States) Date Acquired
June 24, 2024
Publication Date
July 22, 2024
Publication Information
Publication: Technical Publication
Publisher: National Aeronautics and Space Administration
Issue: 20240007991
Issue Publication Date: July 22, 2024
Subject Category
GeophysicsLunar and Planetary Science and ExplorationNonmetallic MaterialsSpace Sciences (General) Funding Number(s)
CONTRACT_GRANT: 80MSFC18C0011
CONTRACT_GRANT: 80NM0018D0004
CONTRACT_GRANT: 80NSSC23K1173
CONTRACT_GRANT: 80NSSC19M0214
CONTRACT_GRANT: 80JSC022DA035
CONTRACT_GRANT: 80NSSC19M019
CONTRACT_GRANT: 80MSFC20C0054
Distribution Limits
Public
Copyright
Use by or on behalf of the US Gov. Permitted.
Technical Review
NASA Peer Committee
Keywords
lunar regolith simulantNUW-LHT-5MChemistryEngineering PropertiesSpectroscopyLow and High T DielectricsParticle Size2D and 3D Particle Shape