The Second Moments of the Line Shapes of Multiple Quantum NMR Coherences in One-Dimensional Systems

G. A. Bochkin; S. G. Vasil’ev; I. D. Lazarev; E. B. Fel’dman

doi:10.1134/S1063776118090133

The Second Moments of the Line Shapes of Multiple Quantum NMR Coherences in One-Dimensional Systems

Authors: Bochkin G.A.¹, Vasil’ev S.G.¹, Lazarev I.D.¹^,2, Fel’dman E.B.¹
Affiliations:
1. Institute of Problems of Chemical Physics
2. Faculty of Fundamental Physical–Chemical Engineering
Issue: Vol 127, No 3 (2018)
Pages: 532-538
Section: Order, Disorder, and Phase Transition in Condensed System
URL: https://journals.rcsi.science/1063-7761/article/view/193597
DOI: https://doi.org/10.1134/S1063776118090133
ID: 193597

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Abstract
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Abstract

The second moments of the line shapes of the zeroth- and second-order multiple quantum NMR coherences determined by the dipole–dipole interactions of nuclear spins in crystals have been calculated. The second moments determined by the zz part of the dipole–dipole interaction have been derived both by a direct calculation and based on the exact solution (in terms of the zz model) for the decay of the multiple quantum coherence intensities on the evolution period of a multi-quantum NMR experiment. The decay of the multiple quantum NMR coherence intensities in a single crystal of calcium fluorapatite is well described by the Gaussian curves with the calculated second moments.

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The Second Moments of the Line Shapes of Multiple Quantum NMR Coherences in One-Dimensional Systems

Full Text

Abstract

About the authors

G. A. Bochkin

S. G. Vasil’ev

I. D. Lazarev

E. B. Fel’dman

Supplementary files