Title :
New, “Super-Open,” MRI, and MRT Magnets
Author :
Weggel, Carl F. ; Weggel, Robert J.
Author_Institution :
Magn. Anal. for Gov., Ind. & Coll. (MAGIC), Andover, MA, USA
Abstract :
We have designed and optimized the uniform-field magnet system of two dozen, one-meter-bore, one-tesla, MRI, and Magnetic Resonance Therapy (MRT) systems with a minimum axial gap between the coils of one meter. These magnet systems include not only mirror-symmetric systems, but also ergonomic, non-mirror-symmetric systems. These super-open systems are ideal for MRI-guided surgery and image-guided radiotherapy, as well as for diagnosis, particularly if the patient suffers from claustrophobia. By iterating between three computer programs, one can also design optimum uniform-field magnet systems that include permanent magnets and/or magnetizable iron.
Keywords :
biomedical MRI; permanent magnets; surgery; MRI-guided surgery; MRT magnets; Magnetic Resonance Therapy systems; claustrophobia; ergonomic nonmirror-symmetric systems; image-guided radiotherapy; magnetic flux density 1 tesla; magnetizable iron; minimum axial gap; one-meter-bore MRI; one-tesla MRI; optimum uniform-field magnet systems; patient diagnosis; permanent magnets; super-open MRI; Coils; Magnetic noise; Magnetic resonance imaging; Magnetic separation; Magnetic shielding; Superconducting magnets; Surgery; Magnetic resonance imaging; Newton´s method; optimization; software algorithms; superconducting magnets;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2013.2292058
