Monitoring of brightness temperature fluctuation of water in SHF range

  • Yu. D. Ivanov Institute of Biomedical Chemistry http://orcid.org/0000-0001-5041-1914
  • A. F. Kozlov Institute of Biomedical Chemistry
  • Institute of Biomedical Chemistry
  • V. Yu. Tatur Foundation of Perspective Technologies and Novations
  • S. G. Vesnin RES Ltd.
  • V. S. Ziborov Joint Institute for High Temperatures of Russian Academy of Sciences
  • N. D. Ivanova Moscow state academy of veterinary medicine and biotechnology n.a. K.I. Skryabin
  • T. O. Pleshakova Institute of Biomedical Chemistry http://orcid.org/0000-0003-3217-9095
Keywords: water clusters, SHF emission, fluctuation.

Abstract

The purpose of the research consisted in detection of fluctuation of brightness temperature (T SHF ) of water in the area of the temperature Т = 42°С (that is critical for human) during its evaporation by SHF radiometry. Methods: Monitoring of the changes in brightness temperature of water in superhigh frequency (SHF) range (3.8-4.2 GHz) near the phase transition temperature of water Т = 42°С during its evaporation in the cone dielectric cell. The brightness temperature measurements were carried out using radiometer. Results: Fluctuation with maximum of brightness temperature was detected in 3.8-4.2 GHz frequency range near at the temperature of water Т = 42°С. It was characteristic for these T SHF fluctuations that brightness temperature rise time in this range of frequencies in ~4°С temperature range with 0.05-15°С/min gradient and a sharp decrease during 10 s connected with measuring vapor conditions. Then nonintensive fluctuation series was observed. At that, the environment temperature remained constant. Conclusion: The significant increasing in brightness temperature of water during its evaporation in SHF range near the temperature of Т ~42°С were detected. It was shown that for water, Т SHF pull with the amplitude DТ SHF ~4°C are observed. At the same time, thermodynamic temperature virtually does not change. The observed effects can be used in the development of the systems for diadnostics of pathologies in human and analytical system.

Downloads

Download data is not yet available.
Published
2017-01-10
How to Cite
Ivanov Y. D., Kozlov A. F., , Tatur V. Y., Vesnin S. G., Ziborov V. S., Ivanova N. D., Pleshakova T. O. Monitoring of brightness temperature fluctuation of water in SHF range // Patologicheskaya Fiziologiya i Eksperimental’naya Terapiya (Pathological physiology and experimental therapy). 2017. VOL. 61. № 2. PP. 101–107.
Section
Methods