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Inferring Compressible Fluid Dynamics From Vent Discharges During Volcanic Eruptions (2018)

Méndez Harper, J. S. ; Cimarelli, C. ; Dufek, J. ; [et al.]

American Geophysical Union

In: Geophysical Research Letters. 2018; 45(14): 7226-7235. Published 2018 Jul 28. doi: 10.1029/2018gl078286.

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Publication Date: 2018-07-28

Description: Observations at numerous volcanoes reveal that eruptions are often accompanied by continual radio frequency (CRF) emissions. The source of this radiation, however, has remained elusive until now. Through experiments and the analysis of field data, we show that CRF originates from proximal discharges driven by the compressible fluid dynamics associated with individual volcanic explosions. Blasts produce flows that expand supersonically, generating regions of weakened dielectric strength in close proximity to the vent. As erupted material—charged through fragmentation, friction, or other electrification process—transits through such a region, pyroclasts remove charge from their surfaces in the form of small interparticle spark discharges or corona discharge. Discharge is maintained as long as overpressured conditions at the vent remain. Beyond describing the mechanism underlying CRF, we demonstrate that the magnitude of the overpressure at the vent as well as the structure of the supersonic jet can be inferred in real time by detecting and locating CRF sources. ©2018. The Authors.

Print ISSN: 0094-8276

Electronic ISSN: 1944-8007

Topics: Geosciences , Physics

Published by American Geophysical Union

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Electrification of sand on Titan and its influence on sediment transport (2017)

Méndez Harper, J. S. ; McDonald, G. D. ; Dufek, J. ; [et al.]

Springer Nature

In: Nature Geoscience. 2017; 10(4): 260-265. Published 2017 Mar 27. doi: 10.1038/ngeo2921.

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Publication Date: 2017-03-27

Description: Triboelectric, or frictional, charging is a ubiquitous yet poorly understood phenomenon in granular flows. Recognized in terrestrial volcanic plumes and sand storms, such electrification mechanisms are possibly present on Titan. There, dunes and plains of low-density organic particles blanket extensive regions of the surface. Unlike Earth, Titan hosts granular reservoirs whose physical and chemical properties possibly enhance the effects of charging on particle motion. Here we demonstrate in laboratory tumbler experiments under atmospheric conditions and using organic materials analogous to Titan that Titan sands can readily charge triboelectrically. We suggest that the resulting electrostatic forces are strong enough to promote aggregation of granular materials and affect sediment transport on Titan. Indeed, our experiments show that electrostatic forces may increase the saltation threshold for grains by up to an order of magnitude. Efficient electrification may explain puzzling observations on Titan such as the mismatch between dune orientations and inferred wind fields. We conclude that, unlike other Solar System bodies, nanometre-scale electrostatic processes may shape the geomorphological features of Titan across the moon's surface. © 2017 Macmillan Publishers Limited, part of Springer Nature. All rights reserved.

Print ISSN: 1752-0894

Electronic ISSN: 1752-0908

Topics: Geosciences

Published by Springer Nature

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