Add to ORKGA theoretical model for H-1-H-1 dipolar nuclear spin relaxation for a bi-spaced periodic one-dimensional array of spin 1/2 nuclei has been developed. A diffusion equation is formed for such a system by assuming nearest-neighbor interaction and isotropic random molecular reorientations. Under spin-diffusion conditions (omega tau(c) >> 1), this equation has been solved using Laplace transform for an infinite chain. The results are presented for the boundary conditions described for truncated driven Nuclear Overhauser effect experiments. The solution is further generalized by making the inter-spin spacing as a random variable with a Gaussian distribution
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Spin relaxation theory and nuclear magnetic resonance spectroscopy in amphiphilic liquid crystals ar...
A theoretical model for H-1-H-1 dipolar nuclear spin relaxation for a bi-spaced periodic one-dimensi...
A theoretical model for <SUP>1</SUP>H-<SUP>1</SUP>H dipolar nuclear spin relaxation for a bi-spaced ...
A theoretical description of $1^H-1^H$ dipolar nuclear spin relaxation in a multispin system has bee...
A theoretical description of $1^H-1^H$ dipolar nuclear spin relaxation in a multispin system has bee...
A theoretical description of 1H-1H dipolar nuclear spin relaxation in a multispin system has been wo...
The nuclear Overhauser effect equations are solved analytically for a homonuclear group of spins who...
The nuclear Overhauser effect equations are solved analytically for a homonuclear group of spins who...
A comprehensive theoretical description is given for the spin relaxation and diffusion in solids. Th...
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Proton-driven spin diffusion (PDSD) experiments in rotating solids have received a great deal of att...
In complex biological or colloidal samples, magnetic relaxation dispersion (MRD) experiments using t...
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Spin relaxation theory and nuclear magnetic resonance spectroscopy in amphiphilic liquid crystals ar...
A theoretical model for H-1-H-1 dipolar nuclear spin relaxation for a bi-spaced periodic one-dimensi...
A theoretical model for <SUP>1</SUP>H-<SUP>1</SUP>H dipolar nuclear spin relaxation for a bi-spaced ...
A theoretical description of $1^H-1^H$ dipolar nuclear spin relaxation in a multispin system has bee...
A theoretical description of $1^H-1^H$ dipolar nuclear spin relaxation in a multispin system has bee...
A theoretical description of 1H-1H dipolar nuclear spin relaxation in a multispin system has been wo...
The nuclear Overhauser effect equations are solved analytically for a homonuclear group of spins who...
The nuclear Overhauser effect equations are solved analytically for a homonuclear group of spins who...
A comprehensive theoretical description is given for the spin relaxation and diffusion in solids. Th...
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Proton-driven spin diffusion (PDSD) experiments in rotating solids have received a great deal of att...
In complex biological or colloidal samples, magnetic relaxation dispersion (MRD) experiments using t...
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Theoretical models for motionally driven spin diffusion are compared and applied to spinsS= andS= 1....
Spin relaxation theory and nuclear magnetic resonance spectroscopy in amphiphilic liquid crystals ar...