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Minimum Attenuation of Physiologically-Patterned, 1 µTesla Magnetic Fields through Simulated Skull and Cerebral Space

Author(s): Michael A. Persinger | Kevin S. Saroka

Journal: Journal of Electromagnetic Analysis and Applications
ISSN 1942-0730

Volume: 05;
Issue: 04;
Start page: 151;
Date: 2013;
Original page

Keywords: Time-Varying Magnetic Fields | Penetrability of the Skull | Attenuation Factors | Physiological Concentrations of Ions | 1 MicroTesla Magnetic Fields

To answer the queries concerning penetrability of ~1 μT, physiologically patterned, time-varying magnetic fields through the cranium, the proportions of attenuation through thicknesses and densities of ~3 times that of the human skull were measured directly. There was no reduction in the intensity of the magnetic field when two 2 cm thick dried pine boards (4.3 × 103 kg
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