Add to ORKGThe stochastic Liouville method is used to analyze the general problem of spin-lattice relaxation in zero-field for molecules undergoing Markovian reorientations
A single-molecule magnet placed in a magnetic field perpendicular to its anisotropy axis can be trun...
The mathematical methods based on stochastic differential equations and the rotation operator, which...
Spin dynamics (SD) methods have been developed to compute NMR paramagnetic relaxation enhancements (...
Electron spin relaxation of transition metal ions with spin S ≥ 1S⩾1 results primarily from thermal ...
Nuclear magnetic relaxation provides a powerful method giving insight into molecular motions at atom...
Effects due to the nonuniaxial part of the zero field splitting (ZFS) tensor on NMR relaxation enhan...
In complex biological or colloidal samples, magnetic relaxation dispersion (MRD) experiments using t...
We extend spin-lattice relaxation theory to incorporate the use of pulsed magnetic fields for probin...
The NMR (nuclear magnetic resonance) paramagnetic relaxation enhancement (NMR‐PRE) that is produced ...
Employing the semiclassical form of the density operator theory of dynamic processes, the transient ...
Second-rank tensor interactions, such as quadrupolar interactions between the spin- 1 deuterium nuc...
In this paper we present a comparative study of spontaneous emission and spin-lattice relaxation at ...
We demonstrate a method to quantify and manipulate nuclear spin decoherence mechanisms that are acti...
For an antiferromagnet it is shown that within perturbation theory the Holstein‐Primakoff and Dyson‐...
The motivation of this work comes from measurements of the spin-lattice relaxation in disordered or ...
A single-molecule magnet placed in a magnetic field perpendicular to its anisotropy axis can be trun...
The mathematical methods based on stochastic differential equations and the rotation operator, which...
Spin dynamics (SD) methods have been developed to compute NMR paramagnetic relaxation enhancements (...
Electron spin relaxation of transition metal ions with spin S ≥ 1S⩾1 results primarily from thermal ...
Nuclear magnetic relaxation provides a powerful method giving insight into molecular motions at atom...
Effects due to the nonuniaxial part of the zero field splitting (ZFS) tensor on NMR relaxation enhan...
In complex biological or colloidal samples, magnetic relaxation dispersion (MRD) experiments using t...
We extend spin-lattice relaxation theory to incorporate the use of pulsed magnetic fields for probin...
The NMR (nuclear magnetic resonance) paramagnetic relaxation enhancement (NMR‐PRE) that is produced ...
Employing the semiclassical form of the density operator theory of dynamic processes, the transient ...
Second-rank tensor interactions, such as quadrupolar interactions between the spin- 1 deuterium nuc...
In this paper we present a comparative study of spontaneous emission and spin-lattice relaxation at ...
We demonstrate a method to quantify and manipulate nuclear spin decoherence mechanisms that are acti...
For an antiferromagnet it is shown that within perturbation theory the Holstein‐Primakoff and Dyson‐...
The motivation of this work comes from measurements of the spin-lattice relaxation in disordered or ...
A single-molecule magnet placed in a magnetic field perpendicular to its anisotropy axis can be trun...
The mathematical methods based on stochastic differential equations and the rotation operator, which...
Spin dynamics (SD) methods have been developed to compute NMR paramagnetic relaxation enhancements (...