IEEE Access (Jan 2020)

Metasurface Matching Layers for Enhanced Electric Field Penetration Into the Human Body

  • Simone Genovesi,
  • Ian Richard Butterworth,
  • Jose Enrique Cruz Serralles,
  • Luca Daniel

DOI
https://doi.org/10.1109/ACCESS.2020.3034833
Journal volume & issue
Vol. 8
pp. 197745 – 197756

Abstract

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The use of electromagnetic fields applied to human tissues has proven to be beneficial in several applications, such as monitoring physiological parameters and delivering medical treatments. Often applications rely on targeted energy deposition into the tissue, or rely on wireless powering of implanted devices. In such cases, the system energy efficiency, the stability of the field, and ultimately the process safety could all benefit from minimizing the mismatch at the air-skin interface. In this article, the maximization of the electric field transmitted into the muscle tissue is initially addressed by optimizing a dielectric-only matching layer in terms of thickness and relative dielectric permittivity, and under realistic constraints on low-cost available materials. The propagation of the electromagnetic field inside a multilayered medium that represents the body is evaluated by using the wave-transmission chain matrix approach. Furthermore, an innovative solution, based on the application of a metasurface matching layer (MML), is proposed to significantly improve the performance of the matching, thus enhancing the electromagnetic fields reaching the targeted muscle tissue. A thorough assessment of the performance is carried out considering both the presence of an air gap, and the case of plane waves impinging at oblique incidence.

Keywords