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P J Dimbylow

Showing results (1-10 of 25) with videos related to

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Radiation Protection Dosimetry|September 27, 2001
The relationship between localised SAR in the arm and wrist currentP J Dimbylow
Physics in Medicine and Biology|March 1, 1997
FDTD calculations of the whole-body averaged SAR in an anatomically realistic voxel model of the human body from 1 MHz to 1 GHzP J Dimbylow
Physics in Medicine and Biology|July 1, 1980
Neutron cross-sections and kerma values for carbon, nitrogen and oxygen from 20 to 50 MeVP J Dimbylow
Physics in Medicine and Biology|December 1, 1988
The calculation of induced currents and absorbed power in a realistic, heterogeneous model of the lower leg for applied electric fields from 60 Hz to 30 MHzP J Dimbylow
Radiation Protection Dosimetry|March 28, 2006
The calculation of SAR from limb current in the female voxel phantom, NAOMIP J Dimbylow
Physics in Medicine and Biology|May 5, 2000
Current densities in a 2 mm resolution anatomically realistic model of the body induced by low frequency electric fieldsP J Dimbylow
Physics in Medicine and Biology|September 12, 2002
Fine resolution calculations of SAR in the human body for frequencies up to 3 GHzP J Dimbylow
Physics in Medicine and Biology|March 1, 1993
FDTD calculations of the SAR for a dipole closely coupled to the head at 900 MHz and 1.9 GHzP J Dimbylow
Bioelectromagnetics|January 1, 1987
Finite difference calculations of current densities in a homogeneous model of a man exposed to extremely low frequency electric fieldsP J Dimbylow
IEEE Transactions on Bio-Medical Engineering|May 1, 1991
Finite-difference time-domain calculations of absorbed power in the ankle for 10-100 MHz plane wave exposureP J Dimbylow
Pageof 3

Showing results (1-10 of 25) with videos related to

Sort By:
Pageof 3
Radiation Protection Dosimetry|September 27, 2001
The relationship between localised SAR in the arm and wrist currentP J Dimbylow
Physics in Medicine and Biology|March 1, 1997
FDTD calculations of the whole-body averaged SAR in an anatomically realistic voxel model of the human body from 1 MHz to 1 GHzP J Dimbylow
Physics in Medicine and Biology|July 1, 1980
Neutron cross-sections and kerma values for carbon, nitrogen and oxygen from 20 to 50 MeVP J Dimbylow
Physics in Medicine and Biology|December 1, 1988
The calculation of induced currents and absorbed power in a realistic, heterogeneous model of the lower leg for applied electric fields from 60 Hz to 30 MHzP J Dimbylow
Radiation Protection Dosimetry|March 28, 2006
The calculation of SAR from limb current in the female voxel phantom, NAOMIP J Dimbylow
Physics in Medicine and Biology|May 5, 2000
Current densities in a 2 mm resolution anatomically realistic model of the body induced by low frequency electric fieldsP J Dimbylow
Physics in Medicine and Biology|September 12, 2002
Fine resolution calculations of SAR in the human body for frequencies up to 3 GHzP J Dimbylow
Physics in Medicine and Biology|March 1, 1993
FDTD calculations of the SAR for a dipole closely coupled to the head at 900 MHz and 1.9 GHzP J Dimbylow
Bioelectromagnetics|January 1, 1987
Finite difference calculations of current densities in a homogeneous model of a man exposed to extremely low frequency electric fieldsP J Dimbylow
IEEE Transactions on Bio-Medical Engineering|May 1, 1991
Finite-difference time-domain calculations of absorbed power in the ankle for 10-100 MHz plane wave exposureP J Dimbylow
Pageof 3