DocumentCode
1407209
Title
An efficient RF exposure system with precise whole-body average SAR determination for in vivo animal studies at 900 MHz
Author
Balzano, Quirino ; Chou, Chung-Kwang ; Cicchetti, Renato ; Faraone, Antonio ; Tay, Roger Yew-Siow
Author_Institution
Motorola Res. Labs., Fort Lauderdale, FL, USA
Volume
48
Issue
11
fYear
2000
fDate
11/1/2000 12:00:00 AM
Firstpage
2040
Lastpage
2049
Abstract
A radial electromagnetic cavity has been designed and optimized for the in vivo whole-body exposure of mice to 900-MHz RF fields. Parallel circular plates shorted around the perimeter form the cavity, which is fed at the center in order to excite a cylindrical TEM wave. Plastic housings allow the insertion and equidistant positioning from the exciter of 40 mice, with the electric field parallel to the body axis. The resulting exposure system is highly efficient, featuring more than 80% of the incident power dissipated in the mice. The whole-body average SAR can be determined with remarkable precision by means of straightforward power balance since the RF power leakage from the cavity is extremely low. Fairly uniform exposure of the mice, individually and collectively, has been achieved by means of the symmetric arrangement. This exposure system has been adopted in a replication study on transgenic mice currently being carried out in South Australia, and is being considered for upcoming animal studies in Europe.
Keywords
biological effects of microwaves; biological techniques; electromagnetic wave absorption; 900 MHz; Europe; South Australia; biological research instrumentation; cylindrical TEM wave; efficient RF exposure system; in vivo animal studies; incident power dissipation; mice; parallel circular plates; plastic housings; precise whole-body average SAR determination; radial electromagnetic cavity; Animal structures; Design optimization; Electromagnetic fields; Electromagnetic waveguides; In vivo; Mice; Planar waveguides; Radio frequency; Rectangular waveguides; Rodents;
fLanguage
English
Journal_Title
Microwave Theory and Techniques, IEEE Transactions on
Publisher
ieee
ISSN
0018-9480
Type
jour
DOI
10.1109/22.884193
Filename
884193
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