Affiliations: [a] George Green Institute for Elecromagnetics Research,
The University of Nottingham, Nottingham NG7 2RD, UK | [b] School of Physics and Astronomy, The University of
Nottingham, Nottingham NG7 2RD, UK
Abstract: The feasibility of optimising a loaded Magnetic Resonance Imaging RF
probe using time reversal analysis and a time domain electromagnetic solver is
demonstrated in this paper. It is shown that the geometry of a Magnetic
Resonance Imaging RF probe can be refined to improve the field distribution
within a sample. In this novel technique the longitudinal electric field is
used as the error term for the field within a biological sample and also as the
source function for a time reversal simulation. The output of the time reversal
simulation will then indicate how the original probe can be adjusted or
supplemented to improve the original field distribution. Two examples are given
to demonstrate the utility of this approach. The first is the design of a
saddle probe and the second is the design of a microstrip RF coil. Although
this approach is limited to lossless structures, the results can still provide
a valuable insight for structures and biological loads with significant loss.
This is a fast and efficient optimisation method which can lead to novel RF
structures.
Keywords: Time reversal, MRI probes, MRI, optimisation, TLM, electromagnetics
