Miniature‐probe measurements of electric fields and currents induced by a 60‐Hz magnetic field in rat and human models

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<jats:title>Abstract</jats:title><jats:p>A miniaturized probe was designed and built to provide detailed data on fields induced by a uniform 60‐Hz magnetic field in homogeneous models of rat and human. The probe employed three silver wires twisted and potted in an 8‐cm hypodermic needle. The exposed tips of the wires formed three sensing electrodes with a centered ground; highly sensitive voltage measurements were enabled by a lock‐in amplifier. Tests were conducted in a 1‐mT rms field that was uniform within ± 5%. The models were made by casting 1.5% agar at 1‐S/m conductivity into plastic‐foam molds. The rat model was scaled 1:1 as an adult (22 cm length; mass about 640 g). The human model was scaled 1:4 as an adult (height = 46.5 cm; mass 1.4 kg). The probe was inserted into each model in several regions, and readings of induced fields were made under different exposure geometries. Maximal strengths of fields induced near the surface of the torso were as high as 120 μV/cm in the laterally exposed rat model. Data extrapolated from the quarter‐scale human model revealed that an induced field as high as 700 μV/cm could occur at the torso of a frontally exposed human adult. An overall size‐scale factor of about 5 appears to be appropriate for experimental exposures of rats that are intended to simulate currents induced in human beings by magnetic fields. The average strength of electric fields induced in the torso by a 1‐mT magnetic field is comparable to that by a vertical electric‐field at 60 kV/m and 28 kV/m, respectively, for the rat and human.</jats:p>

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