The AC conductivity of human sweat ducts as the dominant factor in the sub-THz reflection coefficient of skin

Noa Betzalel, Paul Ben Ishai, Sharon Einav, Yuri Feldman

Research output: Contribution to journalArticlepeer-review

6 Scopus citations

Abstract

The helical nature of human sweat ducts, combined with the morphological and dielectric properties of skin, suggests electromagnetic activity in the sub-THz frequency band. A detailed electromagnetic simulation model of the skin, with embedded sweat ducts, was created. The model includes realistic dielectric properties based on the measured water content of each layer of skin, derived from Raman Spectroscopy. The model was verified by comparing it to measurements of the reflection coefficient of the palms of 13 volunteers in the frequency band 350–410 GHz. They were subjected to a measurement protocol intended to induce mental stress, thereby also activating the sweat glands. The Galvanic Skin Response was concurrently measured. Using the simulation model the optimal ac-conductivity for each measurement was found. The range of variation for all subjects was found to be from 100 S/m to a maximum value of 6000 S/m with averages of 1000 S/m. These are one order of magnitude increase from the accepted values for water at these frequencies (~100 s/m at 100 GHz). Considering the known biochemical mechanism for inducing perspiration, we conclude that these ac-conductivity levels are probably valid, even though the real time measurements of sweat ac-conductivity levels inside the duct are inaccessible.

Original languageEnglish
Article numbere202100027
JournalJournal of Biophotonics
Volume14
Issue number7
DOIs
StatePublished - Jul 2021

Keywords

  • ac-conductivity
  • human skin
  • reflection coefficient
  • sub-THz
  • sweat gland ducts

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