An Analytical Approach towards Passive Ferromagnetic Shimming Design for a High-Resolution NMR Magnet.

IF 4.2 1区物理与天体物理 Q2 PHYSICS, APPLIED Superconductor Science & Technology Pub Date : 2015-07-01 Epub Date: 2015-05-19 DOI:10.1088/0953-2048/28/7/075006

Frank X Li, John P Voccio, Min Cheol Ahn, Seungyong Hahn, Juan Bascuñán, Yukikazu Iwasa

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Abstract

This paper presents a warm bore ferromagnetic shimming design for a high resolution NMR magnet based on spherical harmonic coefficient reduction techniques. The passive ferromagnetic shimming along with the active shimming is a critically important step to improve magnetic field homogeneity for an NMR Magnet. Here, the technique is applied to an NMR magnet already designed and built at the MIT's Francis Bitter Magnet Lab. Based on the actual magnetic field measurement data, a total of twenty-two low order spherical harmonic coefficients is derived. Another set of spherical harmonic coefficients was calculated for iron pieces attached to a 54 mm diameter and 72 mm high tube. To improve the homogeneity of the magnet, a multiple objective linear programming method was applied to minimize unwanted spherical harmonic coefficients. A ferromagnetic shimming set with seventy-four iron pieces was presented. Analytical comparisons are made for the expected magnetic field after Ferromagnetic shimming. The theoretically reconstructed magnetic field plot after ferromagnetic shimming has shown that the magnetic field homogeneity was significantly improved.

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为高分辨率 NMR 磁体设计无源铁磁微调的分析方法

本文介绍了基于球谐波系数减小技术的高分辨率 NMR 磁体的暖孔铁磁垫片设计。被动铁磁垫片和主动垫片是提高 NMR 磁体磁场均匀性的重要步骤。在此，我们将该技术应用于麻省理工学院弗朗西斯-比特磁体实验室设计和制造的 NMR 磁体。根据实际磁场测量数据，共得出 22 个低阶球谐波系数。另一组球形谐波系数是针对连接在直径 54 毫米、高 72 毫米管子上的铁片计算得出的。为了提高磁体的均匀性，采用了多目标线性编程方法，以尽量减少不需要的球谐波系数。介绍了由七十四块铁片组成的铁磁性垫片组。对铁磁垫片后的预期磁场进行了分析比较。铁磁垫片后的理论重建磁场图显示，磁场均匀性得到显著改善。

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来源期刊

Superconductor Science & Technology 物理-物理：凝聚态物理

CiteScore

6.80

自引率

27.80%

发文量

227

审稿时长

3 months

期刊介绍： Superconductor Science and Technology is a multidisciplinary journal for papers on all aspects of superconductivity. The coverage includes theories of superconductivity, the basic physics of superconductors, the relation of microstructure and growth to superconducting properties, the theory of novel devices, and the fabrication and properties of thin films and devices. It also encompasses the manufacture and properties of conductors, and their application in the construction of magnets and heavy current machines, together with enabling technology.