量子转子诱导极化

Quantum-rotor-induced polarization.

作者信息

Meier Benno

机构信息

School of Chemistry, University of Southampton, Southampton, UK.

出版信息

Magn Reson Chem. 2018 Jul;56(7):610-618. doi: 10.1002/mrc.4725. Epub 2018 Apr 15.

DOI:10.1002/mrc.4725

PMID:29460384

Abstract

Quantum-rotor-induced polarization is closely related to para-hydrogen-induced polarization. In both cases, the hyperpolarized spin order derives from rotational interaction and the Pauli principle by which the symmetry of the rotational ground state dictates the symmetry of the associated nuclear spin state. In quantum-rotor-induced polarization, there may be several spin states associated with the rotational ground state, and the hyperpolarization is typically generated by hetero-nuclear cross-relaxation. This review discusses preconditions for quantum-rotor-induced polarization for both the 1-dimensional methyl rotor and the asymmetric rotor H O@C , that is, a single water molecule encapsulated in fullerene C . Experimental results are presented for both rotors.

摘要

量子转子诱导极化与仲氢诱导极化密切相关。在这两种情况下，超极化自旋序都源于旋转相互作用和泡利原理，通过该原理，旋转基态的对称性决定了相关核自旋态的对称性。在量子转子诱导极化中，可能有几个与旋转基态相关的自旋态，超极化通常由异核交叉弛豫产生。本综述讨论了一维甲基转子和不对称转子H₂O@C₆₀（即包裹在富勒烯C₆₀中的单个水分子）的量子转子诱导极化的前提条件。文中给出了两种转子的实验结果。

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量子转子诱导极化

Quantum-rotor-induced polarization.

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