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用于提高¹⁴N核磁共振信号可检测性的交叉极化方法。

Cross-polarisation method for improvement of 14N NQR signal detectability.

作者信息

Rudakov T N, Hayes P A

机构信息

Research Group, QRSciences Limited, 8-10 Hamilton Street, Cannington, WA 6107, Australia.

出版信息

J Magn Reson. 2006 Nov;183(1):96-101. doi: 10.1016/j.jmr.2006.08.001. Epub 2006 Aug 23.

DOI:10.1016/j.jmr.2006.08.001
PMID:16931077
Abstract

This is a study of the cross-polarization effects in the case of 14N quadrupolar spin-system with a long spin-lattice relaxation time. Two important benefits of the cross-polarization technique were demonstrated for PETN: (i) a polarization transfer resulting in increased NQR single shot signal response and (ii) a dynamic reduction in recovery time of the NQR system allowing scan repetition on a much shorter timescale. It was proved that this technique can reduce the optimal waiting time between pulse sequences up to 60 times through a significant reduction of the relaxation time of the quadrupolar spin-system. All experiments were carried out at room temperature using spin-locking multi-pulse sequences and small external magnetic field.

摘要

这是一项关于具有长自旋晶格弛豫时间的14N四极自旋系统情况下交叉极化效应的研究。对于PETN,交叉极化技术的两个重要优势得到了证明:(i)极化转移导致NQR单次信号响应增加;(ii)NQR系统恢复时间动态缩短,允许在更短的时间尺度上重复扫描。事实证明,该技术可通过大幅缩短四极自旋系统的弛豫时间,将脉冲序列之间的最佳等待时间减少多达60倍。所有实验均在室温下使用自旋锁定多脉冲序列和小外部磁场进行。

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