Power law distribution of pressure drops in dust devils: Observation techniques and Earth-Mars comparison

Details Power law distribution of pressure drops in dust devils: Observation techniques and Earth-Mars comparison Power law distribution of pressure drops in dust devils: Observation techniques and Earth-Mars comparison

Jan 2012

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2012p%26ss...60..370l&link_type=abstract

Planetary and Space Science, Volume 60, Issue 1, p. 370-375.

Computer Science

Scientific paper

Data from the Pathfinder and Phoenix landers on Mars show transient pressure drops (˜1-4 per day) attributed to nearby encounters with dust devils or dust-free vortices. The distribution of pressure drop amplitudes is consistent with a truncated power law distribution with a slope of -2, similar to that suggested previously for the optical diameters of dust devils. Comparable data from terrestrial field observations are very sparse: the only published dataset is half a century old and lists only 19 pressure drops. That dataset is too small to permit a robust comparison with Mars and likely suffers from a low detection efficiency at small dust devil sizes. Observed pressure drops in these fixed-station Mars datasets (30-300 μbar) are 10× lower than those typically observed on Earth (0.3-3 mbar): some higher drops have been reported for large terrestrial devils sampled by pursuing vehicles. The needed terrestrial data for comparison with Mars in-situ data (soon to be augmented, we hope, by the Mars Science Laboratory mission) is noted. Prospects for obtaining such data via field campaigns using new data acquisition technology, and with microbarographs for nuclear test monitoring, are discussed.

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