Experimental generation of volcanic lightning

Explosive volcanic eruptions are commonly associated with intense electrical activity and lightning. Direct measurement of the electric potential at the vent, where the electric activity in the volcanic plume is first observed, is severely impeded, limiting progress in its investigation. We have ach...

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Bibliographic Details
Published in:Geology (Boulder) 2014-01, Vol.42 (1), p.79-82
Main Authors: Cimarelli, C, Alatorre-IbargĂĽengoitia, M. A, Kueppers, U, Scheu, B, Dingwell, D. B
Format: Article
Language:English
Subjects:
analog simulation
Antennas
Charged particles
Clusters
Constraining
decompression
Electric potential
electrical currents
Emissions
experimental studies
Experiments
explosive eruptions
genesis
grain size
igneous rocks
laboratory studies
Lightning
mechanism
Monitoring systems
physical models
Plumes
pyroclastics
Quaternary geology
size distribution
Volcanic ash
volcanic rocks
Volcanoes
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Summary:Explosive volcanic eruptions are commonly associated with intense electrical activity and lightning. Direct measurement of the electric potential at the vent, where the electric activity in the volcanic plume is first observed, is severely impeded, limiting progress in its investigation. We have achieved volcanic lightning in the laboratory during rapid decompression experiments of gas-particle mixtures under controlled conditions, and recorded it using a high-speed camera and two antennas. We find that lightning is controlled by the dynamics of the particle-laden jet and by the abundance of fine particles. The relative movement of clusters of charged particles generates the electrical potential, which is necessary for lightning. The experimental generation of volcanic lightning suggests that rapid progress can now be expected in understanding electrical phenomena in volcanic plumes to implement lightning monitoring systems and the forecasting of volcanic ash emissions.
ISSN:0091-7613
1943-2682
DOI:10.1130/G34802.1