Passive Shimming for a Permanent MRI Magnet

Wei ZHAO; Xiao ying TANG; Guo jun HU; Yong LIU

doi:10.1016/S1006-706X(08)60220-4

Passive Shimming for a Permanent MRI Magnet

Wei ZHAO^*, Xiao ying TANG, Guo jun HU, Yong LIU

^*Corresponding author for this work

School of Medical and Technology

Research output: Contribution to journal › Article › peer-review

Abstract

A new method for allowing a permanent magnet for MR imaging to meet its stringent field homogeneity requirements has been developed. The method is called passive shimming and uses the permanent magnetic pieces instead of the ferromagnetic material in the magnet bore at locations of the hardware. Software and hardware have facilitated this shimming procedure with high efficiency and stabilization. The method can be considered as a function approximation. In this paper, the function of a magnetic dipole is presented as a basis function. From the functional space that consists of simple functions of a series of magnetic dipoles, the specific function that approximates the negative quantity of the error function in the homogeneous magnetic field with the desired accuracy can be found. The series of magnetic dipoles are realized by the permanent magnetic pieces located in the hardware. The result shows that this method is fixable and normative over the traditional method.

Original language	English
Pages (from-to)	415-418
Number of pages	4
Journal	Journal of Iron and Steel Research International
Volume	13
Issue number	SUPPL. 1
DOIs	https://doi.org/10.1016/S1006-706X(08)60220-4
Publication status	Published - 2006

Keywords

function approximation
magnetic resonance imaging (MRI)
passive shimming
permanent magnetic piece

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10.1016/S1006-706X(08)60220-4

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title = "Passive Shimming for a Permanent MRI Magnet",

abstract = "A new method for allowing a permanent magnet for MR imaging to meet its stringent field homogeneity requirements has been developed. The method is called passive shimming and uses the permanent magnetic pieces instead of the ferromagnetic material in the magnet bore at locations of the hardware. Software and hardware have facilitated this shimming procedure with high efficiency and stabilization. The method can be considered as a function approximation. In this paper, the function of a magnetic dipole is presented as a basis function. From the functional space that consists of simple functions of a series of magnetic dipoles, the specific function that approximates the negative quantity of the error function in the homogeneous magnetic field with the desired accuracy can be found. The series of magnetic dipoles are realized by the permanent magnetic pieces located in the hardware. The result shows that this method is fixable and normative over the traditional method.",

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author = "Wei ZHAO and TANG, {Xiao ying} and HU, {Guo jun} and Yong LIU",

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T1 - Passive Shimming for a Permanent MRI Magnet

AU - ZHAO, Wei

AU - TANG, Xiao ying

AU - HU, Guo jun

AU - LIU, Yong

PY - 2006

Y1 - 2006

N2 - A new method for allowing a permanent magnet for MR imaging to meet its stringent field homogeneity requirements has been developed. The method is called passive shimming and uses the permanent magnetic pieces instead of the ferromagnetic material in the magnet bore at locations of the hardware. Software and hardware have facilitated this shimming procedure with high efficiency and stabilization. The method can be considered as a function approximation. In this paper, the function of a magnetic dipole is presented as a basis function. From the functional space that consists of simple functions of a series of magnetic dipoles, the specific function that approximates the negative quantity of the error function in the homogeneous magnetic field with the desired accuracy can be found. The series of magnetic dipoles are realized by the permanent magnetic pieces located in the hardware. The result shows that this method is fixable and normative over the traditional method.

AB - A new method for allowing a permanent magnet for MR imaging to meet its stringent field homogeneity requirements has been developed. The method is called passive shimming and uses the permanent magnetic pieces instead of the ferromagnetic material in the magnet bore at locations of the hardware. Software and hardware have facilitated this shimming procedure with high efficiency and stabilization. The method can be considered as a function approximation. In this paper, the function of a magnetic dipole is presented as a basis function. From the functional space that consists of simple functions of a series of magnetic dipoles, the specific function that approximates the negative quantity of the error function in the homogeneous magnetic field with the desired accuracy can be found. The series of magnetic dipoles are realized by the permanent magnetic pieces located in the hardware. The result shows that this method is fixable and normative over the traditional method.

KW - function approximation

KW - magnetic resonance imaging (MRI)

KW - passive shimming

KW - permanent magnetic piece

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Passive Shimming for a Permanent MRI Magnet

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