What is it about?

We investigate the effect of halo activity on the electrostatic field measured at ground level. We use electrostatic arguments as well as self-consistent simulations to show that, due to the screening charge in the ionosphere, the distant electrostatic field created by the uncompensated charge in a thundercloud decays exponentially rather than as the third power of the distance. Furthermore, significative ionization around the lower edge of the ionosphere slightly reduces the electrostatic field at ground level. We conclude that halos do not extend the range of detectability of lightning-induced electrostatic fields.

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Why is it important?

We conclude that halos do not extend the range of detectability of lightning-induced electrostatic fields.

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This page is a summary of: On the electrostatic field created at ground level by a halo, Geophysical Research Letters, July 2016, American Geophysical Union (AGU),
DOI: 10.1002/2016gl069590.
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