Detail publikace

Diffraction of electromagnetic wave on skin capillary

STARKOV, I. RAIDA, Z. STARKOV, A.

Originální název

Diffraction of electromagnetic wave on skin capillary

Český název

Diffraction of electromagnetic wave on skin capillary

Typ

článek ve sborníku ve WoS nebo Scopus

Jazyk

cs

Originální abstrakt

We have formulated and solved the problem of electromagnetic wave diffraction on skin blood vessel. As an important result of our investigation, it is established that the amplitude of the scattered field is proportional to the square of the capillary area. For the case of long waves, the reflected field is linearly dependent on the depth position of the capillary. The proposed approach would eliminate fundamental uncertainties in the modeling of biological tissues.

Český abstrakt

We have formulated and solved the problem of electromagnetic wave diffraction on skin blood vessel. As an important result of our investigation, it is established that the amplitude of the scattered field is proportional to the square of the capillary area. For the case of long waves, the reflected field is linearly dependent on the depth position of the capillary. The proposed approach would eliminate fundamental uncertainties in the modeling of biological tissues.

Klíčová slova

Blood vessels, Dermis, Diffraction, Electromagnetic scattering, Green's function methods, Mathematical model

Vydáno

26.05.2014

ISBN

978-1-4799-7331-6

Kniha

Days on Diffraction (DD), 2014

Strany od

215

Strany do

219

Strany počet

4

Dokumenty

BibTex


@inproceedings{BUT113088,
  author="Ivan {Starkov} and Zbyněk {Raida} and A.S. {Starkov}",
  title="Diffraction of electromagnetic wave on skin capillary",
  annote="We have formulated and solved the problem of electromagnetic wave diffraction on skin blood vessel. As an important result of our investigation, it is established that the amplitude of the scattered field is proportional to the square of the capillary area. For the case of long waves, the reflected field is linearly dependent on the depth position of the capillary. The proposed approach would eliminate fundamental uncertainties in the modeling of biological tissues.",
  booktitle="Days on Diffraction (DD), 2014",
  chapter="113088",
  doi="10.1109/DD.2014.7036453",
  howpublished="online",
  year="2014",
  month="may",
  pages="215--219",
  type="conference paper"
}