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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
Better Simple Models of Human
Radiofrequency Absorption Rates for E- Polarization at Quasi-Static
Frequencies [PDF] |
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AUTHORS |
D. A. Hill 1985 20 1 17-30 |
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Abstract The existing theory for the quasi-static absorption rate
of a lossy dielectric ellipsoid in E-polarization is extended to include
cylinders of finite length. The key variable affecting the normalized
specific absorption rate (NSAR) of an ellipsoid, prolate spheroid, or
cylinder, is shown to be the axial ratio, R = (length/diameter). Very simple
formulas are deduced for the NSAR of a prolate spheroid or cylinder with
R>6. The quasi-static calculations are confirmed by measurements of the
NSAR of a human-sized ellipsoid, prolate spheroid, and cylinder exposed
inside a very large TEM cell. The three simple models can only account for
between twenty and fifty percent of the measured human NSAR at 10MHz when the
standard-model axial ratio of R=6.34 is used. The best simple models for the
quasi-static human absorption rates in E-polarization are shown to be an
ellipsoid with R=9.4 and a cylinder with R=8.5. |
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