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Numerical Simulation of SGEMP Generated by X-Rays From High-Altitude Nuclear Detonations
Ist Teil von
IEEE transactions on nuclear science, 2023-04, Vol.70 (4), p.678-685
Ort / Verlag
New York: IEEE
Erscheinungsjahr
2023
Quelle
IEEE Xplore
Beschreibungen/Notizen
In this work, the system generated electromagnetic pulse (SGEMP) generated by the X-rays from high-altitude nuclear detonation (HAND) is investigated by numerical simulation. First, based on the mass attenuation coefficients, the spatial distributions of energy fluence, spectrum, and energy deposition of the X-rays propagating in air are calculated, as well as the number density of preionized air. Then, the photon-electron transport between the attenuated X-rays and the metal surface is simulated using the Monte Carlo method. Finally, the SGEMP of a metal cylinder is calculated based on the particle-in-cell (PIC) method. The results show that the electric field close to the irradiated surface consists of a short positive pulse with high intensity and a long negative pulse with low intensity. The magnitude of the electromagnetic field increases upon increasing yield of burst, while decreases upon increasing explosion height and distance from the burst point.