Asymmetric MRI magnet design using a hybrid numerical method


Autoria(s): Zhao, H.; Crozier, S.; Doddrell, D. M.
Data(s)

01/01/1999

Resumo

This paper describes a hybrid numerical method for the design of asymmetric magnetic resonance imaging magnet systems. The problem is formulated as a field synthesis and the desired current density on the surface of a cylinder is first calculated by solving a Fredholm equation of the first kind. Nonlinear optimization methods are then invoked to fit practical magnet coils to the desired current density. The field calculations are performed using a semi-analytical method. A new type of asymmetric magnet is proposed in this work. The asymmetric MRI magnet allows the diameter spherical imaging volume to be positioned close to one end of the magnet. The main advantages of making the magnet asymmetric include the potential to reduce the perception of claustrophobia for the patient, better access to the patient by attending physicians, and the potential for reduced peripheral nerve stimulation due to the gradient coil configuration. The results highlight that the method can be used to obtain an asymmetric MRI magnet structure and a very homogeneous magnetic field over the central imaging volume in clinical systems of approximately 1.2 m in length. Unshielded designs are the focus of this work. This method is flexible and may be applied to magnets of other geometries. (C) 1999 Academic Press.

Identificador

http://espace.library.uq.edu.au/view/UQ:36057

Idioma(s)

eng

Publicador

Academic Press

Palavras-Chave #Biochemical Research Methods #Physics, Atomic, Molecular & Chemical #Spectroscopy #Mri Magnet #Asymmetric Design #Hybrid Numerical Method #Coil Design #Nmr #Optimization #Shield #Main #C1 #671402 Medical instrumentation #291599 Biomedical Engineering not elsewhere classified
Tipo

Journal Article