论文信息 - ursts of Pulses in Lightning magnetic Radiation: Observations and lications for Lightning Test Standards

ursts of Pulses in Lightning magnetic Radiation: Observations and lications for Lightning Test Standards

Bursts of regular microsecond-scale electric field pulses produced by three multiple-stroke cloud-to-ground dis- charges (a total of 2782 pulses) and by three cloud discharges (a total of 1436 pulses), all recorded within 20 km or so at the NASA Kennedy Space Center, are analyzed. The regular pulse bursts are similar in both cloud-to-ground and cloud discharges. A burst is characterized by some tens of pulses, each having a total width of a few microseconds, with an average interpuke interval of 6-7 ps. Pulse peaks in cloud-to-ground discharges are approximately two orders of magnitude smaller than return- stroke initial field peaks in the same flash. In both cloud and ground discharges, there is a tendency for the bursts to occur in the latter stages of a discharge, and positive and negative pulse polarities are about equally probable. Many bursts were found to be associated with the latter part of K changes while one pronounced M change appeared to be initiated by a regular pulse burst. The observed regular pulse bursts exhibit some similarity to the "multiple burst" (component H) of the standard lightning environment for the design and testing of aerospace vehicles 111. Overall, neither the present definition of the H component given in (l) nor its newly proposed revision appears to be based on adequate experimental data.

[1] M. Brook,et al. The mechanism of the intracloud lightning discharge , 1964 .

[2] Vladimir A. Rakov,et al. Microsecond‐scale electric field pulses in cloud lightning discharges , 1994 .

[3] Vladimir A. Rakov,et al. Electric field pulses in K and M changes of lightning ground flashes , 1992 .

[4] N. Kitagawa,et al. A comparison of intracloud and cloud-to-ground lightning discharges , 1960 .

[5] M. Uman,et al. The Lightning Discharge , 1987 .

[6] Jeffrey C. Bailey,et al. A class of unusual lightning electric field waveforms with very strong high‐frequency radiation , 1989 .

[7] E. Philip Krider,et al. Regular radiation field pulses produced by intracloud lightning discharges , 1975 .

[8] Vladimir A. Rakov,et al. K and M changes in close lightning ground flashes in Florida , 1990 .

[9] B. Schonland,et al. Progressive lightning. VII Directly-correlated photographic and electrical studies of lightning from near thunderstorms , 1947, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[10] V. Mazur. A physical model of lightning initiation on aircraft in thunderstorms , 1989 .

[11] Vladislav Mazur,et al. Aircraft-triggered lightning - Processes following strike initiationthat affect aircraft , 1992 .