COLD-TRAPPING OF ARGON IN THE LUNAR PERMANENTLY SHADED REGIONSWE PROPOSE TO UNDERSTAND THE VARIABILITY SOURCES AND SINKS OF ARGON IN THE LUNAR EXOSPHERE AND STUDY ITS COLD-TRAPPING IN THE PERMANENTLY SHADED REGIONS (PSRS) OF THE MOON. THIS GOAL WILL BE ACHIEVED BY ANSWERING THE FOLLOWING SCIENCE QUESTIONS: WHERE DOES ARGON OUTGAS FROM? WHERE IS ARGON PREFERENTIALLY TRAPPED AND HOW MUCH OF IT IS STORED IN THE PSRS? WHAT ARE THE RELATIVE ROLES OF SCAVENGING VERSUS BURIAL OF SUCH ARGON DEPOSITS FROM MICRO-METEOROID IMPACT VAPORIZATION? WHAT IS THE ARGON INVENTORY IN THE PSRS? THESE QUESTIONS WILL BE ANSWERED BY A COMBINATION OF DATA ANALYSIS AND MODELING. DATA FROM LUNAR RECONNAISSANCE ORBITER (LRO) INSTRUMENTS LOLA (LUNAR ORBITER LASER ALTIMETER) AND DIVINER WILL BE USED TO IMPROVE OUR EXISTING EXOSPHERIC CODE WHILE DATA FROM THE NEUTRAL MASS SPECTROMETER (NMS) ON BOARD NASA'S LUNAR ATMOSPHERE AND DUST ENVIRONMENT EXPLORER (LADEE) WILL BE USED TO VALIDATE AND CONSTRAIN THE CODE. THE LUNAR VOLATILES ARE OF SPECIAL INTEREST FOR THE INVESTIGATION OF FASCINATING PROCESSES OCCURRING IN EXTREMELY COLD LUNAR ENVIRONMENTS WHERE THERE SEEM TO BE PUZZLINGLY LARGE AMOUNTS OF SURFICIAL WATER. IN ADDITION AS HIGHLIGHTED IN THE SCIENTIFIC CONTEXT FOR EXPLORATION OF THE MOON THE LUNAR "POLAR REGIONS MAY PROVIDE CRITICAL RESOURCES [...] FOR FUTURE EXPLORATIONS" (CONCEPT 4). AMONG THE LUNAR VOLATILES ARGON IS OF SPECIAL INTEREST SINCE IT COMES FROM THE RADIOACTIVE DECAY OF POTASSIUM WITHIN THE INTERIOR OF THE MOON SO IT IS TRULY AN ENDOGENIC ELEMENT WHICH IS ULTIMATELY RELEASED INTO THE EXOSPHERE FROM MICROPORES AND CRACKS AT THE SURFACE. MOREOVER ARGON MIMICS THE BEHAVIOR OF OTHER VOLATILES OF INTEREST NAMELY WATER IN ITS LATERAL MIGRATION UNTIL COLD-TRAPPING IN THE PSRS. RECENTLY OBSERVATIONS FROM LADEE/NMS HAVE POSITIVELY CONFIRMED THE DETECTION OF ARGON AFTER FOUR DECADES FROM THE FIRST MEASUREMENTS (FROM THE MASS SPECTROMETER LACE DEPLOYED AT THE LUNAR SURFACE DURING THE APOLLO 17 MISSION) DETECTING: 1) A PREVIOUSLY UNSEEN ENHANCEMENT IN EXOSPHERIC ARGON DENSITY ABOVE THE WESTERN MARIA A GEOLOGICALLY INTERESTING REGION RICH IN KREEP MATERIAL; AND 2) WHAT APPEARS TO BE A PERIODIC TREND IN THE EXOSPHERIC DISTRIBUTION OF ARGON PERHAPS DUE TO INCREASED ARGON DIFFUSION DUE TO TIDAL STRESSES. TO INVESTIGATE SUCH INTERESTING RESULTS WE WILL IMPROVE OUR CODE BY INCLUDING A SET OF TEMPERATURE MAPS FROM LRO/DIVINER TO SIMULATE THE DIURNAL TEMPERATURE PROFILE OF EACH POINT OF THE SURFACE AND A TOPOGRAPHY MAP FROM LRO/LOLA TO REPRODUCE CRATERS AND MOUNTAINS. WE WILL THEN START ANALYZING THE LADEE/NMS EXOSPHERIC ARGON DENSITIES TO UNDERSTAND THESE TEMPORAL AND SPATIAL VARIATIONS FOR EXAMPLE INVESTIGATING THE POSSIBILITY FOR LOCAL OUTGASSING AND THE CHANGE IN RESIDENCE TIME (AND HENCE IN ATMOSPHERIC DENSITY) WITH THE TYPE OF TERRAIN. FINALLY WE WILL FEED THE OUTPUT OF OUR EXOSPHERIC CODE NAMELY THE AMOUNT OF ARGON DELIVERED TO AND COLD TRAPPED IN THE PSRS TO A SPACE WEATHERING SIMULATION TO STUDY HOW MUCH OF SUCH DEPOSITS CAN SURVIVE THE MICROMETEOROIDS IMPACTS. AT THE END OF THE 3 YEARS WE WILL HAVE IDENTIFIED THE MAJOR SOURCES AND SINKS OF ARGON IN THE LUNAR EXOSPHERE AND WE WILL HAVE A PREDICTION FOR DISTRIBUTION OF ARGON IN THE PSRS. THE PROPOSED WORK WILL STUDY THE "DISTRIBUTION TRANSPORT AND CHARACTERIZATION OF VOLATILES IN AND ON THE MOON" THE "CHARACTERIZATION OF THE GLOBAL VARIABILITY AND STRUCTURE OF THE LUNAR EXOSPHERE" THE LUNAR "CHANGE DETECTION (I.E. DETECTION OF SURFACE OR ATMOSPHERIC CHANGES AS A FUNCTION OF TIME)" AND THE "IDENTIFICATION AND/OR CHARACTERIZATION OF POTENTIAL LANDING SITES OF HIGH LUNAR SCIENCE RETURN" AND AND IS THEREFORE RELEVANT TO THESE FOUR HIGH PRIORITY AREAS OF LUNAR RESEARCH OF NASA S ROSES LDAP PROGRAM CALL (PAGE C.8-2).
$213,575FY2016National Aeronautics and Space AdministrationNASA
Southwest Research Institute, San Antonio TX