Title :
HEMP Field Penetration into an Ideal Shelter without a Floor through a Lossy Earth
Author :
Rogers, S.R. ; Perala, R.A.
Author_Institution :
Electro Magnetic Applications, Inc. 1978 South Garrison Street Denver, Colorado 80227
Abstract :
EMP hardening of existing ground based facilities by shielding the facility principally from above has been investigated. This study supports the following conclusions: 1) Wall extensions provide an added measure of protection for EMP hardening. 2) The soils with high conductivity shield best. 3) The angle of arrival of the EMP is relatively unimportant. 4) Finite length shelters (all real shelters) can allow significant energy to penetrate, and 5) Finite length shelters allow large magnetic fields to penetrate the shelter although the coupling mechanism (dH/dt, the time rate of change in the magnetic field) is considerably reduced (factor of u 50).
Keywords :
Conductivity measurement; Couplings; EMP radiation effects; Earth; Energy measurement; Length measurement; Magnetic field measurement; Magnetic shielding; Protection; Soil measurements;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.1981.4335748
