利用自旋-晶格弛豫时间研究了MCsSO4 (M = Na, K,或Rb)单晶的核-声子相互作用

IF 0.4 Q4 BIOCHEMICAL RESEARCH METHODS
Jae Hun Choi, N. Kim, A. Lim
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引用次数: 0

摘要

通过测量Na、K、Rb和Cs核的核磁共振谱和自旋晶格弛豫速率1/T1,研究了MCsSO4 (M = Na、K和Rb)晶体的结构特性和弛豫过程。根据核磁共振光谱,MCsSO4晶体含有M和Cs离子的两个晶体学上不相等的位点。此外,所有这些核的弛豫速率在所研究的温度范围内没有明显变化,表明这些晶体在该温度范围内没有发生相变。这三种晶体中Na、K、Rb和Cs核的1/T1值随温度升高的变化近似与T成正比,表明拉曼过程可能是弛豫的原因。因此,对于Na、K、Rb和Cs核的四极弛豫,n = 2的拉曼过程比直接过程更有效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nucleus-phonon interactions of MCsSO4 (M = Na, K, or Rb) single crystals studied using spin-lattice relaxation time
The structural properties and relaxation processes of MCsSO4 (M = Na, K, or Rb) crystals were investigated by measuring the NMR spectra and spin–lattice relaxation rates 1/T1 of their Na, K, Rb, and Cs nuclei. According to the NMR spectra, the MCsSO4 crystals contain two crystallographically inequivalent sites each for the M and Cs ions. Further, the relaxation rates of all these nuclei do not change significantly over the investigated temperature range, indicating that no phase transitions occur in these crystals in this range. The variations in the 1/T1 values of the Na, K, Rb, and Cs nuclei in these three crystals with increasing temperature are approximately proportional to T, indicating that Raman processes may be responsible for the relaxation. Therefore, for nuclear quadrupole relaxation of the Na, K, Rb, and Cs nuclei, Raman processes with n = 2 are more effective than direct processes.
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来源期刊
Journal of the Korean magnetic resonance society
Journal of the Korean magnetic resonance society BIOCHEMICAL RESEARCH METHODS-
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