了解磁场,用于核磁共振/MRI

IF 2.624
Mark S. Conradi
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引用次数: 0

摘要

本书为核磁共振工作者的目标读者介绍了磁场的基本物理原理。这群人通常没有接受过正规的电磁学培训,但可以从对一些主题的理解中受益。本书的重点是相对非数学的视角,旨在提供对该主题的直观理解。所涵盖的主题从简单的理想化电流(包括长直线、短扁线圈、无限电流片、长螺线管和磁偶极矩)产生的场开始。还讨论了场梯度和垫片场的产生。所有这些都可以通过考虑磁场的发散和卷曲而统一起来。还讨论了磁性材料,包括线性可磁化材料(包括样品本身)和永久磁化材料;介绍了磁路的等效电流方法和安培定理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Understanding magnetic fields, for NMR/MRI

Understanding magnetic fields, for NMR/MRI

The basic physics of magnetic fields is presented for a target audience of NMR workers. This group often does not have formal training in electromagnetism, but could benefit from an understanding of a selected subset of topics. The focus here is on a relatively non-mathematical view, intended to deliver an intuitive understanding of the topic. The covered topics start with the fields arising from simple idealized currents, including long straight wires, short flat coils, infinite current sheets, long solenoids, and magnetic dipole moments. The generation of field gradients and shim fields is discussed. All of these can be unified by considering the divergence and curl of the magnetic field. Magnetic materials are treated, both linear magnetizable materials (including the sample itself) and permanently magnetized materials; the approaches of equivalent currents and Ampere's theorem for magnetic circuits are presented.

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CiteScore
1.90
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0.00%
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