Design optimization method for a ferromagnetically self-shield MR magnet

Author

Ogle, M.D. ; D´Angelo, J.

Author_Institution

Gen. Electr. Co., Schenectady, NY, USA

Volume

27

Issue

2

fYear

1991

fDate

3/1/1991 12:00:00 AM

Firstpage

1689

Lastpage

1691

Abstract

A method is described for designing a self-shielded MR (magnetic resonance) magnet. This method determines optimal shielding while maintaining an homogeneous imaging volume. This technique uses the finite-element method in the design iteration loop to solve the magnetic field problem, which includes nonlinear, saturable iron. From the magnetic field solution, the iron magnetization and its contribution to the bore field are determined. The positions and sizes of the current carrying coils are then optimized to obtain the best possible homogeneity. The design iterations are continued until the solutions converge. The iron shield design can also be modified at any iteration if further optimization of the iron shield is required

Keywords

CAD; biomedical NMR; biomedical equipment; electrical engineering computing; finite element analysis; iterative methods; magnetic shielding; optimisation; superconducting magnets; Fe shield design; MRI magnet; Newton-Raphson method; algorithm; bore field; current carrying coils; design iteration loop; ferromagnetically self-shield magnet; finite-element method; homogeneous imaging volume; magnetic field problem; optimal shielding; superconducting magnet; Boring; Coils; Design methodology; Design optimization; Finite element methods; Iron; Magnetic resonance; Magnetic resonance imaging; Magnetic shielding; Magnetization;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/20.133513

Filename

133513