Laboratory analyses of meteoric debris in the upper stratosphere from settling bolide dust clouds
F.J.M. Rietmeijer ; V. Della Corte ; M. Ferrari ; et al. ; - ASI Sponsor
Mar - 2016
DOI: 10.1016/j.icarus.2015.11.003

journal : Icarus

Volume : 266 ; type: Article Journal

Abstract
Bolide and fireball fragmentation produce vast amounts of dust that will slowly fall through the stratosphere. DUSTER (Dust in the Upper Stratosphere Tracking Experiment and Retrieval) was designed to intercept the nanometer to micrometer meteoric dust from these events for laboratory analyses while it is still in the upper stratosphere. This effort required extraordinary precautions to avoid particle contamination during collection and in the laboratory. Here we report dust from the upper stratosphere that was collected during two campaigns one in 2008 and another in 2011. We collected and characterized forty five uncontaminated meteoric dust particles. The collected particles are alumina, aluminosilica, plagioclase, fassaite, silica, CaCO3, CaO, extreme F-rich Csingle bondOsingle bondCa particles, and oxocarbon particles. These particles are found in friable CI and CM carbonaceous chondrite, and unequilibrated ordinary chondrite meteoroids that are the most common source of bolides and fireballs. The oxocarbons have no meteorite counterparts. Some F-bearing CaCO3 particles changed shape when they interacted with the ambient laboratory atmosphere which might indicate their highly unequilibrated state as a result of fragmentation. Equilibrium considerations constrain the thermal regime experienced by the collected particles between ∼2000 °C and ∼1000 °C, as high as 3700 °C and as low as ∼650 °C after 9 s, followed by rapid quenching (μs) to below 1600 °C, but equilibrium conditions during these events is most unlikely. So far the observed thermal conditions in these events put the temperatures between ∼4300 °C and ∼430 °C for 5 s and high cooling rates. Such conditions are present in the immediate wake of meteors and fireballs.

keywords : Meteors; Mineralogy; Cosmochemistry; Meteorites; Exobiology