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First spatio-temporal results from the LDEF interplanetary dust experiment |
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| Authors: | SF Singer JE Stanley PC Kassel WH Kinard JJ Wortman JL Weinberg JD Mulholland G Eichhorn WJ Cooke NL Montague |
| Institution: | a Institute for Space Science and Technology, Space Astronomy Laboratory, Gainesville, FL, U.S.A. b University of Virginia, Charlottesville, VA, U.S.A. c NASA Langley Research Center, Langley Field, VA, U.S.A. d North Carolina State University, Raleigh, NC, U.S.A. e Observatoire de la Côte d'Azur (CERGA), Grasse, France f Steward Observatory, University of Arizona., Tucson, AZ, U.S.A. g University of Florida, Gainesville, FL, U.S.A. |
| Abstract: | The LDEF Interplanetary Dust Experiment was unique in providing a time history of impacts of micron-sized particles on six orthogonal faces of the vehicle over a span of nearly a full year. Over 15000 hits were recorded, representing a mix of zodiacal dust, meteor stream grains, orbital debris, perhaps beta-meteoroids, and possibly interstellar matter. Although the total number was higher than predicted, the relative panel activity distribution was near expectations. Detailed deconvolution of the impact record with orbital data is underway, to examine each of these populations. Very preliminary results of the fairly crude “first look” analysis suggest that debris is the major particle component at 500 km. The data show clear evidence of some known meteor streams as sharp, tightly-focused events, unlike their visible counterparts. Some apparent debris events show similar signatures. Data from the leading and trailing edges suggest a detection of beta-meteoroids, but the analysis is not yet conclusive. Absolute fluxes and flux ratios are not yet known, since the detector status analysis is yet incomplete. |
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