Title :
Analysis of phantom boundary shell and the resultant matching effect of shell on SAR (specific absorption rate) values
Author :
Brooks, Daniel ; Nicol, Stuart ; Wojcik, Jacek
Author_Institution :
APREL Lab., Nepean, Ont.
Abstract :
Finite difference time domain (FDTD) methods were employed to develop the complete mechanical structure (complex) of the half-wavelength experimental dipole models used to conduct this research. This paper examines how the phantom shell dielectric boundary affects the specific absorption rate (SAR) for simulations based on experimental system validation measurement protocols and the resultant calculations. Numerical calculations are made to determine complex electric and magnetic field magnitudes along with the SAR values within the APREL Laboratories universal phantom filled with tissue simulation fluid. Secondary calculations are made without the universal phantom shell (elimination of phantom shell boundary) being in place and compared against the prime phantom model data
Keywords :
antenna accessories; biological effects of fields; dipole antennas; electric fields; electromagnetic wave absorption; finite difference time-domain analysis; magnetic fields; phantoms; APREL Laboratories; FDTD methods; dipole models; electric field magnitudes; finite difference time domain methods; magnetic field magnitudes; phantom boundary shell; phantom shell dielectric boundary; specific absorption rate; tissue simulation fluid; Dipole antennas; Finite difference methods; Humans; Imaging phantoms; Laboratories; Magnetic field measurement; Numerical models; Radio frequency; Specific absorption rate; Time domain analysis;
Conference_Titel :
Electromagnetic Compatibility, 2005. EMC 2005. 2005 International Symposium on
Conference_Location :
Chicago, IL
Print_ISBN :
0-7803-9380-5
DOI :
10.1109/ISEMC.2005.1513476
