P23C-4006:
Experimental Investigation of Neutral Species from Micrometeoroid Bombardment

Tuesday, 16 December 2014
Andrew Collette1, Zoltan Sternovsky2, Javier R Rocha1, Tobin L Munsat3 and Mihaly Horanyi4, (1)University of Colorado at Boulder, Boulder, CO, United States, (2)Colorado Univ, Boulder, CO, United States, (3)University of Colorado, Boulder, CO, United States, (4)University of Colorado at Boulder, Physics, Boulder, CO, United States
Abstract:
Surface-boundary exospheres exist in a balance between source and loss processes. An important area of uncertainty, highlighted by the MESSENGER observations of Mg and Ca at Mercury, and the recently concluded LADEE observations at the Moon, is the role of micrometeoroid bombardment as a source process for liberating surface species. Unlike sputtering or photon stimulated desorption processes, the physics of micrometeoroid impacts are still poorly understood; in particular, no comprehensive model exists to predict partitioning of impact products between ejecta fragments, charged particles, and neutrals.

We present initial experiments at the IMPACT dust accelerator facility (University of Colorado Boulder) aimed at directly measuring the fraction of neutral species liberated in micrometeoroid impacts. Simulated micrometeoroids (micron- and submicron-sized iron spheres) are fired at targets containing refractory elements, including fused silica (SiO2), sapphire (Al2O3), and magnesium fluoride (MgF2). Total quantities of specific impact-generated neutral species are measured using a mass spectrometer, as a function of impactor speed and mass, and compared with well-established scaling laws for charged particle production.