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Krehbiel et al. 1979
Krehbiel, P.R., Brook, M. and McCrory, R.A. (1979). An analysis of the charge structure of lightning discharges to ground. Journal of Geophysical Research 84: doi: 10.1029/JC084iC05p02432. issn: 0148-0227.

Sources of charge for the individual strokes of four multiple-strokes of four multiple-stroke flashes to ground have been determined, using measurements of the electrostatic field change obtained at eight locations on the ground beneath the storm. The resulting charge locations have been compared to 3-cm radar measurements of precipitation structure in the storm. The field changes of individual strokes were found to be reasonably consistent with the lowering to ground of a localized or spherically symmetric charge in te cloud. The centers of charge for successive strokes of each flash developed over large horizontal distances within the cloud up to 8 km, at more or less constant elevation between the --9¿ and --17≡ C environmental (clear air) temperature levels Comparison with the radar measurements has shown that the discharges developed through the full horizontal extent of the precipitating region of the storm and appeard to be bounded within the extent. In one instance where cellular structure of the storm was apparent, the strokes selectively dicharged regions where the precipitation echo was the strongest Vertical extent of the storm. The field changes in the intervals between strokes have been found to exhibit many of the features which Malan and Schonland used to infer that ground flashes discharge a nearly vertical column of charge in the cloud. This and other evidence is used to show that their observations, which were made at a single station, could instead have been of horizontally developing discharges. The interstroke field changes have been analyzed using a point dipole model and found to correspond to predominantly horizontal charge motion that was closely associated with the ground stroke sources for the flashes. The interstroke activity served effectively to transport negative charge in the direction of earlier stroke volumes and often persisted in the vicinity of an earlier stroke volume, while subsequent strokes discharged more distant regions of the cloud. Long-duration field changes that sometimes preceded the first stroke of a flash have been analyzed and found to correspond to a series of vertical and horizontal breakdown events within the cloud, prior to development of a leader to ground. These events were associated in part with the negative charge region that became the source of the first stroke and effectively transported negative charge away from the first stroke charge volume and from the charge volumes of subsequent strokes. Several continuing current discharges were found also to progress horizontally within the cloud and sustained currents in the range of 580 A to less than 50 A. The continuing current field changes were consistenly better fitted by the monopole charge model than the field changes of discrete strokes within the same flash.

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Journal
Journal of Geophysical Research
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American Geophysical Union
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