Antennas for near-field radiothermometry

Author

Gaikovich, K.P. ; Reznik, A.N. ; Vaks, V.L.

Volume

1

fYear

2000

fDate

2000

Firstpage

241

Abstract

The application of electrically-small antennas in the area of subsurface radiometry make possible measurements of the quasi-stationary field of thermal emission (evanescent modes at interface). New one-wavelength methods of non-invasive temperature sounding of absorbing media, such as water and living tissue, can be developed using such measurements. The quasi-stationary field component is formed in media in a different way compared to the ordinary used wave (propagating) component. Our theoretical analysis shows that the effective depth of the formation of the quasi-stationary component depends on the height of the antenna above the surface of a medium and on the antenna size. At the surface this skin-depth could be very small (for small antennas); it increases with antenna height, and at the height comparable to the wavelength in the medium it converges to skin-depth for the wave component of the thermal emission

Keywords

UHF antennas; UHF measurement; absorbing media; radiometry; receiving antennas; temperature measurement; 950 MHz; absorbing media; effective depth; electrically-small antennas; evanescent modes; height; living tissue; near-field radiothermometry; noninvasive temperature sounding; one-wavelength methods; quasi-stationary field; skin-depth; subsurface radiometry; thermal emission; water; Acoustic propagation; Antenna accessories; Antenna measurements; Antenna theory; Antennas and propagation; Area measurement; Electric variables measurement; Radiometry; Surface waves; Temperature;

fLanguage

English

Publisher

ieee

Conference_Titel

Mathematical Methods in Electromagnetic Theory, 2000. MMET 2000. International Conference on

Conference_Location

Kharkov

ISSN

1

Print_ISBN

0-7803-6347-7

Type

conf

DOI

10.1109/MMET.2000.888569

Filename

888569