Spin Echoes in a Constant Gradient and in the Presence of Simple Restriction

Over the past decade several pulsed field gradient stimulated-echo methods have been presented for diffusion measurements in heterogeneous media. These methods have reduced or eliminated the coupling between the applied magnetic field gradient and a constant internal magnetic field gradient caused b

A simple mathematical formalism is presented which allows narrow pulses. In particular, it is assumed that not only is the closed form expressions for the echo attenuation, E(q), in spin duration d of the pulses much smaller than their separation echo diffusion experiments, for practically all gradi

A closed matrix form solution of the Bloch-Torrey equation is presented for the magnetization density of spins diffusing in a bounded region under a steady gradient field and for the Stejskal-Tanner gradient pulse sequence, assuming straightforward generalization to any step-wise gradient profile. T

The classical treatment is opposed by the macroscopic gradients at high magnetic fields (™7 T) produces multiple nonlinquantum-theoretical approach trying to describe short-as ear stimulated echoes (NOSE) at times n t 1 after the third pulse, well as long-range dipolar interactions on a purely quant

Restricted diffusion of water in a highly concentrated w/o emulsion was studied using pulsed field gradient spin echo techniques. The standard two-pulse version of this technique, suitable for analysis in the time domain, fails to investigate the short time-scale for diffusion inside a single emulsi