Abstract
A method for imaging of spectral parameters of solid samples is presented. The detected NMR signals are Jeener-Broekaert echoes. No read field gradient is applied during the acquisition, so that wide-line spectral parameters can be evaluated and be transferred to image contrasts. On the other hand, multipulse line-narrowing sequences can be applied during the echoes in order to obtain high-resolution spectra. The imaging principle is a pure phase-encoding Fourier technique in two or three dimensions. The phase-encoding gradients are active in the interval between the first two pulses of the Jeener-Broekaert three-pulse sequence. Between the second and the third pulse, the information is conserved in the dipolar (or quadrupolar) order state which is insensitive to field gradients and governed by the relatively slow dipolar (or quadrupolar) relaxation. This interval therefore can be chosen to be long enough to switch the gradients off. The third pulse “reads” the information of the spin-state order and produces an echo under homogeneous field conditions. In the case of two-dimensional imaging, a slice is preselected prior to the whole Jeener-Broekaert sequence by the aid of a LOSY slice-selection pulse. Test experiments are reported, and applications to polymer and biological materials are discussed.
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