Haoran Chen , Yaohui Wang , Wenchen Wang , Guyue Zhou , Pengfei Wu , Hongyi Qu , Jianhua Liu , Liang Li , Feng Liu
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引用次数: 0
摘要
在超高场核磁共振(NMR)超导磁体的设计中,通常需要在球形体积(DSV)直径范围内形成高均匀磁场,以获得高光谱分辨率。然而,由于磁体孔空间的限制,垫片技术面临着挑战,因为精确测量磁场分布非常困难,特别是对于定制的微孔磁体。在本研究中,我们引入了一种主动垫片方法,该方法利用垫片线圈电流的迭代调整来改善基于频谱半最大全宽(FWHM)的磁场均匀性。所提出的方法可以确定垫片线圈的最佳电流集,通过收敛 FWHM 有效提高空间磁场的均匀性。在 25 T NMR 超导磁体上进行的实验验证证明了所提方法的有效性。具体而言,只需四个垫片线圈,主动垫片方法就能将 10 mm DSV 的磁场均匀性从 7.09 ppm 提高到 2.27 ppm,为固体 NMR 和进一步的磁共振成像(MRI)实验提供了优越的磁场环境。此外,所提出的方法还可推广到需要高磁场均匀性的更多定制微孔磁体中。
Active shimming for a 25 T NMR superconducting magnet by spectrum convergence method
In the design of ultrahigh field nuclear magnetic resonance (NMR) superconducting magnets, it typically requires a high homogeneous magnetic field in the diameter of spherical volume (DSV) to obtain high spectrum resolution. However, shimming technique presents challenges due to the magnet bore space limitations, as accurate measurement of magnetic field distribution is very difficult, especially for customized micro-bore magnets. In this study, we introduced an active shimming method that utilized iterative adjustment of shim coil currents to improve the magnetic field homogeneity based on the full width at half maximum (FWHM) of the spectrum. The proposed method can determine the optimal set of currents for shim coils, effectively enhancing spatial field homogeneity by converging the FWHM. Experimental validation on a 25 T NMR superconducting magnet demonstrated the efficacy of the proposed method. Specifically, the active shimming method improved the field homogeneity of a 10 mm DSV from 7.09 ppm to 2.27 ppm with only four shim coils, providing a superior magnetic field environment for solid NMR and further magnetic resonance imaging (MRI) experiment. Furthermore, the proposed method can be promoted to more customized micro-bore magnets that require high magnetic field homogeneity.
期刊介绍:
The Journal of Magnetic Resonance presents original technical and scientific papers in all aspects of magnetic resonance, including nuclear magnetic resonance spectroscopy (NMR) of solids and liquids, electron spin/paramagnetic resonance (EPR), in vivo magnetic resonance imaging (MRI) and spectroscopy (MRS), nuclear quadrupole resonance (NQR) and magnetic resonance phenomena at nearly zero fields or in combination with optics. The Journal''s main aims include deepening the physical principles underlying all these spectroscopies, publishing significant theoretical and experimental results leading to spectral and spatial progress in these areas, and opening new MR-based applications in chemistry, biology and medicine. The Journal also seeks descriptions of novel apparatuses, new experimental protocols, and new procedures of data analysis and interpretation - including computational and quantum-mechanical methods - capable of advancing MR spectroscopy and imaging.
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