In this paper, we present the design of probe excitations for 7- and 10.5-T traveling-wave wide-bore magnetic resonance imaging systems. The probes are 297- and 447-MHz coaxially fed microstrip patches, designed to give a circularly polarized magnetic field when placed in the metallic bore waveguide. Images of a water phantom using the patch probes are obtained and compared with full-wave electromagnetic simulations. Additionally, periodic axial metal strip cylinders are inserted into the bore, resulting in improved field uniformity in a phantom with a simultaneous increase in SNR. The numerical analysis for nonquasi-static fields can be computationally intensive, and the numerical error for finite-element simulations is quantified using modified boundary conditions of the system. When the waveguide effects are taken into account, the mode content in the images compares well to full-wave simulations.
CITATION STYLE
Bluem, P., Kiruluta, A., Van De Moortele, P. F., Duh, A., Adriany, G., & Popovic, Z. (2017). Patch-Probe Excitation for Ultrahigh Magnetic Field Wide-Bore MRI. IEEE Transactions on Microwave Theory and Techniques, 65(7), 2547–2557. https://doi.org/10.1109/TMTT.2017.2656084
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