Summary
Recordings of potential gradient and air-earth current in fair-weather conditions were made at high-elevation mountain stations; the latter were generally above the vertical-mixing layer and not disturbed by local sources. Both electrical quantities increased significantly from the day of appearance of a solar flare (or a maximum incidence of flares) till the fourth day after the event. Peak potential gradient and air-earth current exceed the ‘normal levels’ measured during quiet-sun conditions by 50–60% in terms of averages. This result was compared with sferics incidence data and daily geomagnetic coefficients grouped around the selected (flare) dates. Both of the latter quantities show time histories (for the days preceding and following the selected dates) closely correlated with the atmospheric-electrical histories of the same intervals. We may conclude from these results that the total potential between the ground and the upper atmosphere increases for several days after solar flares. The results obtained by previous studies on Mauna Loa confirm this inference. The cause of the phenomenon is presumed to be enhanced thunderstorm activity attendant on solar disturbances.
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We wish to thank the Deutsche Forschungsgemeinschaft for a grant taht enabled us to carry out the studies described in this paper
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Reiter, R. Solar flares and their impact on potential gradient and air-earth current characteristics at high mountain stations. PAGEOPH 72, 259–267 (1969). https://doi.org/10.1007/BF00875709
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DOI: https://doi.org/10.1007/BF00875709