Lightning electromagnetic pulse magnetic field calculation

Abstract: Lightning electromagnetic pulse is strong electromagnetic interference sources, along with the rapid development of information technology, it has all kinds of hazards of electrical and electronic equipment, communications equipment becoming more serious; interference with normal radio communications and a variety of remote control devices, and become radio an important source of noise; secondly, it is also harmful to the area around the lightning channel, and in the case of a lightning strike electrical equip… Show more

“…It is challenging to observe the initial propagation of shock waves generated by natural lightning due to several reasons: (1) a wide range of electromagnetic radiation from a lightning arc channel can cause severe electromagnetic interference (EMI) with measuring devices [11], (2) a return stroke current can heat the lightning channel in the temperature range of 10 000-30 000 K [12], threatening the safety of measuring devices located near the channel, (3) an initial lightning attachment location is somewhat unpredictable. Thus, the systematic investigation of shock wave propagation is difficult [13].…”

Shock wave propagation in long laboratory sparks under negative switching impulses

“…It is challenging to observe the initial propagation of shock waves generated by natural lightning due to several reasons: (1) a wide range of electromagnetic radiation from a lightning arc channel can cause severe electromagnetic interference (EMI) with measuring devices [11], (2) a return stroke current can heat the lightning channel in the temperature range of 10 000-30 000 K [12], threatening the safety of measuring devices located near the channel, (3) an initial lightning attachment location is somewhat unpredictable. Thus, the systematic investigation of shock wave propagation is difficult [13].…”

Shock wave propagation in long laboratory sparks under negative switching impulses