Magnetic nuclear spin-lattice relaxation in NMR of orthorhombic crystals in the presence of strong quadrupole coupling. Horvatić, M. Journal of Physics: Condensed Matter, 4(26):5811-5824, 1992.
Magnetic nuclear spin-lattice relaxation in NMR of orthorhombic crystals in the presence of strong quadrupole coupling [link]Website  abstract   bibtex   
A review is given of Some NMR techniques developed in experiments on high-temperature superconductors, Multiexponential relaxation which appears in the TI measurements when NMR lines are split by quadrupole interactions is discussed for the case of magnetic relaxation. The change in the form of relaxalion is followed as the quadrupole Hamiltonian starts to perturb the othenvise pure Zeeman spin slates (defined by Iz). Orthorhombic symmetry is assumed in the analysis, which is shown to greatly simplify the data reduction to oblain the magnetic hyperfine shift, the electric held gradient and the nuclear spin-laltice relaxation rate.
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 title = {Magnetic nuclear spin-lattice relaxation in NMR of orthorhombic crystals in the presence of strong quadrupole coupling},
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 year = {1992},
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 pages = {5811-5824},
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 abstract = {A review is given of Some NMR techniques developed in experiments on high-temperature superconductors, Multiexponential relaxation which appears in the TI measurements when NMR lines are split by quadrupole interactions is discussed for the case of magnetic relaxation. The change in the form of relaxalion is followed as the quadrupole Hamiltonian starts to perturb the othenvise pure Zeeman spin slates (defined by Iz). Orthorhombic symmetry is assumed in the analysis, which is shown to greatly simplify the data reduction to oblain the magnetic hyperfine shift, the electric held gradient and the nuclear spin-laltice relaxation rate.},
 bibtype = {article},
 author = {Horvatić, M},
 journal = {Journal of Physics: Condensed Matter},
 number = {26}
}

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