Millimeter wave dosimetry at exposure of cell monolayers

The specific absorption rate, the amplitude of the electric field and the power flux density of millimeter waves in a cell monolayer within a well of a multi-well plate or a Petri dish are calculated. The radiation power absorption decrease in the cell layer compared to the solution is shown. The pr...

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Veröffentlicht in:	Biophysics (Oxford) 2017-03, Vol.62 (2), p.261-264
Hauptverfasser:	Alekseev, S. I., Zhadobov, M. V., Fesenko, E. E.
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption Biological and Medical Physics Biophysics Cell Biophysics Cellular biology Computer Science Density Dielectrics Dosimeters Dosimetry Electric fields Electronics Engineering Sciences Exposure Fluctuations Flux density Millimeter waves Networking and Internet Architecture Physics Physics and Astronomy Radiation
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container_title	Biophysics (Oxford)
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creator	Alekseev, S. I. Zhadobov, M. V. Fesenko, E. E. Fesenko, E. E.
description	The specific absorption rate, the amplitude of the electric field and the power flux density of millimeter waves in a cell monolayer within a well of a multi-well plate or a Petri dish are calculated. The radiation power absorption decrease in the cell layer compared to the solution is shown. The presence of the cells causes a slight increase of the electric field amplitude in the medium. The dielectric of the bottom of the well or Petri dish plays the role of a coupling layer that results in complex frequency dependences of the power reflection coefficient and the specific absorption rate.
doi_str_mv	10.1134/S0006350917020038
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subjects	Absorption Biological and Medical Physics Biophysics Cell Biophysics Cellular biology Computer Science Density Dielectrics Dosimeters Dosimetry Electric fields Electronics Engineering Sciences Exposure Fluctuations Flux density Millimeter waves Networking and Internet Architecture Physics Physics and Astronomy Radiation
title	Millimeter wave dosimetry at exposure of cell monolayers
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