在24 T以上实现1 ppm的磁场均匀性：差分映射在国家高磁场实验室的凯克磁体和串联连接混合磁体匀场中的应用

Achieving 1 ppm field homogeneity above 24 T: Application of differential mapping for shimming Keck and the Series Connected Hybrid magnets at the NHMFL.

作者信息

Litvak Ilya M, Griffin Adrian, Paulino Joana, Mao Wenping, Gor'kov Peter, Shetty Kiran K, Brey William W

机构信息

National High Magnetic Field Laboratory, Florida State University, 1800 E. Paul Dirac Dr., Tallahassee, FL 32310, USA.

Oxford NMR Magnets Ltd, Hexagon House, Avenue 4, Station Lane, Witney, Oxon OX28 4BN, United Kingdom.

出版信息

J Magn Reson. 2019 Apr;301:109-118. doi: 10.1016/j.jmr.2019.03.002. Epub 2019 Mar 5.

DOI:10.1016/j.jmr.2019.03.002

PMID:30870670

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6474693/

Abstract

Powered resistive and resistive-superconductive hybrid magnets can reach fields higher than superconducting NMR magnets but lack the field homogeneity and temporal stability needed for high resolution NMR. Due to field fluctuations in powered magnets, commercially available mapping systems fail to produce maps of these magnets with sufficient reproducibility, thus hampering attempts to improve homogeneity of the field they generate. Starting with a commercial mapper, we built a mapping system which uses a two-channel (measurement + reference) mapper probe. We used this system to map and then to shim two magnets of Florida Bitter type at the National High Magnetic Field Laboratory in Tallahassee, FL. With a combination of passive (ferromagnetic) and active shims we achieved 2.3 ppm homogeneity in 1 cm diameter spherical volume (dsv) at 25.0 T in the Keck resistive magnet, and 0.9 ppm homogeneity in 1 cm dsv at 23.5, 28.2, and 35.2 T in the series-connected resistive-superconductive hybrid (SCH) magnet.

摘要

有源电阻磁体和电阻-超导混合磁体能够产生比超导核磁共振磁体更高的磁场，但缺乏高分辨率核磁共振所需的磁场均匀性和时间稳定性。由于有源磁体中的磁场波动，市售的磁场测绘系统无法以足够的可重复性生成这些磁体的磁场图，从而阻碍了提高它们所产生磁场均匀性的尝试。我们以一台商用测绘仪为基础，构建了一个使用双通道（测量 + 参考）测绘探头的测绘系统。我们使用该系统对位于佛罗里达州塔拉哈西的国家高磁场实验室的两台佛罗里达苦味型磁体进行了磁场测绘，然后进行了匀场。通过无源（铁磁）和有源匀场的组合，我们在凯克电阻磁体中于25.0 T时在直径1 cm的球形体积（dsv）内实现了2.3 ppm的均匀性，在串联电阻-超导混合（SCH）磁体中于23.5 T、28.2 T和35.2 T时在1 cm dsv内实现了0.9 ppm 的均匀性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/42f3/6474693/59e3900383eb/nihms-1524424-f0002.jpg

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