Time-Domain Shielding of a Thin Conductive Sheet in the Presence of Pulsed Vertical Dipoles

The classical problem represented by a planar thin conductive shield in the presence of vertical dipole field sources (electric or magnetic) is solved analytically in the time domain via the Cagniard-de Hoop technique. Comparisons with numerical solutions carried out by means of efficient integration algorithms are provided and discussed.

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