Effects of radial radio-frequency field inhomogeneity on MAS solid-state NMR experiments.

Q3 Physics and Astronomy

Magnetic resonance (Gottingen, Germany) Pub Date : 2021-07-01 eCollection Date: 2021-01-01 DOI:10.5194/mr-2-523-2021

Kathrin Aebischer, Zdeněk Tošner, Matthias Ernst

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Abstract

Radio-frequency field inhomogeneity is one of the most common imperfections in NMR experiments. They can lead to imperfect flip angles of applied radio-frequency (rf) pulses or to a mismatch of resonance conditions, resulting in artefacts or degraded performance of experiments. In solid-state NMR under magic angle spinning (MAS), the radial component becomes time-dependent because the rf irradiation amplitude and phase is modulated with integer multiples of the spinning frequency. We analyse the influence of such time-dependent MAS-modulated rf fields on the performance of some commonly used building blocks of solid-state NMR experiments. This analysis is based on analytical Floquet calculations and numerical simulations, taking into account the time dependence of the rf field. We find that, compared to the static part of the rf field inhomogeneity, such time-dependent modulations play a very minor role in the performance degradation of the investigated typical solid-state NMR experiments.

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“径向射频场不均匀性对MAS固态核磁共振实验的影响”补充材料

摘要射频场不均匀性是核磁共振实验中最常见的缺陷之一。它们可能导致应用射频(rf)脉冲的翻转角度不完美或共振条件的不匹配，从而导致伪影或实验性能下降。在魔角旋转的固体核磁共振中，由于射频辐射的幅值和相位是用旋转频率的整数倍调制的，因此径向分量具有时间依赖性。我们分析了这种随时间变化的mas调制射频场对固态核磁共振实验中一些常用构件性能的影响。这种分析是基于分析Floquet计算以及考虑到射频场的时间依赖性的数值模拟。我们发现，与rf场非均匀性的静态部分相比，这种时间相关调制对所研究的典型固态核磁共振实验的性能下降起着非常小的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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