Prediction of Lightning Inception by Large Ice Particles and Extensive Air Showers

Anna Dubinova; Casper Rutjes; Ute Ebert; Stijn Buitink; Olaf Scholten; Gia Thi Ngoc Trinh

doi:10.1103/PhysRevLett.115.015002

Prediction of Lightning Inception by Large Ice Particles and Extensive Air Showers

Anna Dubinova, Casper Rutjes, Ute Ebert, Stijn Buitink, Olaf Scholten, Gia Thi Ngoc Trinh

Elementary Processes in Gas Discharges

Research output: Contribution to journal › Article › Academic › peer-review

67 Citations (Scopus)

Abstract

We derive that lightning can start if the electric field is 15% of the breakdown field, and if elongated ice particles of 6 cm length and 100 free electrons per cm3 are present. This is one particular example set from a parameter range that we discuss as well. Our simulations include the permittivity ε(ω) of ice. 100 free electrons per cm3 exist at 5.5 km altitude in air showers created by cosmic particles of at least 5×1015eV. If the electric field zone is 3 m high and 0.2km2 in the horizontal direction, at least one discharge per minute can be triggered. The size distribution of the ice particles is crucial for our argument; more detailed measurements would be desirable.

Original language	English
Article number	015002
Number of pages	5
Journal	Physical Review Letters
Volume	115
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.115.015002
Publication status	Published - 3 Jul 2015

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10.1103/PhysRevLett.115.015002

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abstract = "We derive that lightning can start if the electric field is 15% of the breakdown field, and if elongated ice particles of 6 cm length and 100 free electrons per cm3 are present. This is one particular example set from a parameter range that we discuss as well. Our simulations include the permittivity ε(ω) of ice. 100 free electrons per cm3 exist at 5.5 km altitude in air showers created by cosmic particles of at least 5×1015eV. If the electric field zone is 3 m high and 0.2km2 in the horizontal direction, at least one discharge per minute can be triggered. The size distribution of the ice particles is crucial for our argument; more detailed measurements would be desirable.",

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AU - Trinh, Gia Thi Ngoc

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Prediction of Lightning Inception by Large Ice Particles and Extensive Air Showers

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