B. Simon et al., ROTATING-FRAME-IMAGING TECHNIQUE FOR SPATIALLY-RESOLVED DIFFUSION ANDFLOW STUDIES IN THE FRINGE-FIELD OF RF PROBE COILS, Journal of magnetic resonance. Series A, 118(1), 1996, pp. 78-83
A method for rotating-frame NMR diffusometry in the fringe-field B-1 g
radients of solenoid RF coils in standard probeheads is described. A 5
mm RF solenoid coil, for instance, produces B-1 gradients of up to 3.
3 T/m. The gradients can be enhanced by so-called flux concentrators s
o that values comparable to those common in laboratory-frame PGSE expe
riments should be feasible, The principle of the technique is to produ
ce a z magnetization grid with the aid of a B-1 gradient pulse, The wa
venumber of the grid is varied by the length of the preparation pulse.
After a certain diffusion delay, the grid is rendered as an image usi
ng a rapid rotating-frame-imaging technique. The B-1 gradient need not
be constant, Diffusion coefficients are rather evaluated locally base
d on the local B-1 gradients. Single-transient diffusion experiments i
n toroid resonators, and the employment of the B-1 gradients produced
by the skin effect of conducting materials are suggested. (C) 1996 Aca
demic Press, Inc.