On the inversion of multicomponent NMR relaxation and diffusion decays in heterogeneous systems

The theory of pulsed field gradient (pfg) NMR applied to molecules in cellular systems which contain different subcellular compartments separated by permeable membranes, acting as diffusion barriers, has been extended. A numerical model of restricted diffusion and magnetization relaxation behavior i

Multicompartment characteristics of relaxation and diffusion in a model for (plant) cells and tissues have been simulated as a means to test separating the signal into a set of these compartments. A numerical model of restricted diffusion and magnetization relaxation behavior in PFG-CPMG NMR experim

## Abstract The mathematical expressions for interpreting the results of spin‐lattice relaxation, transverse relaxation, spin‐lattice relaxation in the rotating frame, and Ostroff–Waugh multiple‐pulse sequence relaxation experiments on spin‐3/2 nuclei with electric quadrupole interaction in an isot

The effect of induced field inhomogeneity (IFI) on transverse NMR relaxation of water protons in tissue has been investigated by examining the field dependence of the effective transverse relaxation rates (1/T2 efF) for in vitro canine brain tissue samples. At fields of 0.47, 2.35, 7.05 T (correspon

## Abstract Susceptibility agents such as dysprosium may reduce the apparent __T__~2~ of a tissue by inducing magnetic field gradients so that diffusion of water molecules causes dephasing of the transverse magnetization. Gadolinium has a susceptibility that is about 30% lower than dysprosium, so t