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Pulsed Field Gradients in Simulations of One- and Two-Dimensional NMR Spectra

โœ Scribed by Ghirmai H. Meresi; Miroslava Cuperlovic; William E. Palke; J.T. Gerig

Publisher
Elsevier Science
Year
1999
Tongue
English
Weight
130 KB
Volume
137
Category
Article
ISSN
1090-7807

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โœฆ Synopsis

A method for the inclusion of the effects of z-axis pulsed field gradients in computer simulations of an arbitrary pulsed NMR experiment with spin 1 2 nuclei is described. Recognizing that the phase acquired by a coherence following the application of a z-axis pulsed field gradient bears a fixed relation to its order and the spatial position of the spins in the sample tube, the sample is regarded as a collection of volume elements, each phase-encoded by a characteristic, spatially dependent precession frequency. The evolution of the sample's density matrix is thus obtained by computing the evolution of the density matrix for each volume element. Following the last gradient pulse, these density matrices are combined to form a composite density matrix which evolves through the rest of the experiment to yield the observable signal. This approach is implemented in a program which includes capabilities for rigorous inclusion of spin relaxation by dipole-dipole, chemical shift anisotropy, and random field mechanisms, plus the effects of arbitrary RF fields. Mathematical procedures for accelerating these calculations are described. The approach is illustrated by simulations of representative one-and two-dimensional NMR experiments.

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