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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
FDTD Analysis of SAR Distribution
Produced by Interstitial Hyperthermic Applicators [PDF] |
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AUTHORS |
G. Biffi Gentili, M. Leoncini and M. Vivoli 1994 29 2 109-118 |
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Abstract In this paper, the Specific
Absorption Rate (SAR) distributions of interstitial microwave radiating
applicators operating in a layered tissue at 915 and 432 MHz were numerically
determined by using the Finite-Difference Time-Domain (FDTD) method. The
analysis is performed by computing a 2D map of the SAR deposition along the
entire applicator comprising the insertion of the catheter, where hotspots
may be generated dues to the skin/fat/muscle interfaces. The numerical scheme
is based on the Finite-Difference approximations of Maxwell's equations in a
cylindrical coordinate system which takes advantage of the intrinsic
rotational symmetry of the analysis domain to reduce the 3D problem to an
exact 2D one. The proposed method is applied to the electromagnetic (EM)
analysis of single or multiple sectioned radiating structures operating in a
realistic clinical condition. Results are shown which indicate the presence
of a significant rise of SAR at the skin/fat/muscle interfaces when the
applicator operates at the lower frequency. Key Words: Microwave hyperthermia,
Interstitial applicators, Finite difference time-domain (FDTD) method,
Specific absorption rate (SAR). |
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