The interaction of electromagnetic fields with human tissues is of great interest for a wide range of applications spanning from medical treatments to sport activity tracking. In several cases the penetration of the electric field inside body is a key factor for the successful design of wearable devices. The multilayered structure of the tissue and the complex permittivity of its components pose numerous challenges to the propagation of the electric field which will be addressed in this work with the aim of providing guidelines for the design of a matching layer able to enhance the field penetration.
Design of Matching Layers for Increasing the Electrical Field Penetration inside Human Tissue
Genovesi S.;
2018-01-01
Abstract
The interaction of electromagnetic fields with human tissues is of great interest for a wide range of applications spanning from medical treatments to sport activity tracking. In several cases the penetration of the electric field inside body is a key factor for the successful design of wearable devices. The multilayered structure of the tissue and the complex permittivity of its components pose numerous challenges to the propagation of the electric field which will be addressed in this work with the aim of providing guidelines for the design of a matching layer able to enhance the field penetration.File in questo prodotto:
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