Newly Designed 3 T MRI Magnet Wound With Bi-2223 Tape Conductors
Applied Superconductivity, IEEE Transactions(2013)
Abstract
We have designed and fabricated a 3T magnetic resonance imaging magnet system for the human brain, which was wound with Bi-2223 tape conductors. Cooled by a Gifford-McMahon cryocooler, it was operated at 20 K with a stored energy of 2.3 MJ. A magnetic-field homogeneity of 5 ppm was attained at 1.5 T, which was our target value. Using this Bi-2223 high-temperature superconducting magnet, we obtained magnetic resonance images in 1.5 T at 8.5 K. The system was successfully magnetized to 3 T, which is the final target field in our project. This work demonstrates the potential of the high-temperature superconducting magnet for use in human magnetic resonance imaging experiments.
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Key words
biomedical mri,brain,high-temperature superconductors,superconducting magnets,bi-2223 high-temperature superconducting magnet,bi-2223 tape conductor,gifford-mcmahon cryocooler,mri magnet wound,human brain,human magnetic resonance imaging experiment,magnetic resonance imaging magnet system,magnetic-field homogeneity,temperature 8.5 k,bi-2223,cryocooler,imaging,magnetic resonance imaging (mri),high temperature superconductors,magnetic fields,temperature measurement,magnetic resonance imaging
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