Journal of Electrical Engineering and information Science

대한전기학회 (The Korean Institute of Electrical Engineers)
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Design and Test Results of an Actively Shielded Superconducting Magnet for Magnetic Resonance Imaging

  • 발행 : 1997.12.01
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초록

In this paper, we have studied about design and fabrication of the actively shielded superconducting MRI magnet. Nonlinear optimization methods are usually used to find optimum coil configurations. However the selection of initial coil configurations is very difficult. In case bad initial data are used, it is even impossible to find optimum coil configurations which satisfy predefined constraints. We have developed computer optimization program which consists of two steps. Initial coil configurations are easily selected through linear optimization in the first step and optimum coil configurations are found through nonlinear optimization in the second step. We have also studied about superconducting shim coils to cancel error fields caused by coil fabrication errors. Many researchers published design concepts of shim coil. However all these studies are for shim coil design using filamentary coils with single turn, Shim coils with multi-turns should be used to produce enough field strength to cancel error fields. We have developed computer program for the design of shim coils which have proper thickness and length. An actively shielded superconducting MRI magnet with a small warm bore was fabricated and four sets of superconducting shim coils were equipped. The magnetic field distributions were measured and field correction was carried out using shim coils.

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참고문헌

  1. Advances in Cryogenic Engineering v.35 Development of Superconducting Magnet Systems for MRI D.C.Hawksworth
  2. IEEE Transactions on Magnetics v.24 no.1 Performance and Results of a Computer Program for Optimizing Magnet with Iron H.Siebold
  3. IEEE Transactions on Magnetics v.27 no.2 Superconducting Magnet with SelfShield for Whole Body Magnetic Resonance Imaging Y.Shimada,et al
  4. IEEE Transactions on Magnetics v.27 no.2 Design Optimization Method for a Ferromagnetically Self-Shield MR Magnet M.D.Ogle,et al
  5. IEEE Transactions on Magnetics v.24 no.2 The Design and Use of Secondary Shielding in MRI Systems-Experience from 4 Years of Operation R.Morad,et al
  6. IEEE Transactions on Magnetics v.23 no.2 Considerations in the Desing of MRI Magnets with Reduced Stray Field D.G.Hawksworth,et al
  7. IEEE Transactions on Magnetics v.27 no.2 A 2Tesla Active Shield Magnet for Whole Body Imaging and Spectroscopy F.J.Davies,et al
  8. IEEE Transactions on Magnetics v.24 no.6 The Coil Design of the Superconducting MRI Magnet M.Fujita
  9. IEEE Transactions on Magnetics v.27 no.2 Optimized Configurations for Actively Shielded Magnetic Resonace Imaging Magnets A.K.Kalafala
  10. The Review of Scientific Instruments v.32 no.3 Electrical Current Shims for Correcting Magnetic Fields W.A.Anderson
  11. Cryogenics compensators for Non-uniformity of the magnetic Field of a Superconducting Solenoid V.B.Nazarov,et al
  12. Advances in Electronics and Electron Physics High Resolution Nuclear Magnetic Resonance Spectroscopy in High Magnetic Fields M.D.Sauzade;S.K.Kan
  13. Magnetic Resonance in Medicine v.1 Magnetic Field Profiling: Analysis and Correcting Coil Design F.Romeo,et al
  14. IMSL MATH/LIBRARY Version 1.1 IMSL, Inc