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A Guide to Relaxation Theory By A G Redfield
Coherent Averaging and Double Resonance in Solids By J S Waugh
Nuclear Spins and Non Resonant Electromagnetic Phenomena
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amagat amplitude angular momentum approximation atomic average axis Bloch calculated Chem coherent collision collisional constant correlation function corresponding coupling density matrix dipolar dipole-dipole interaction effective field eigenstates electric dipole electronic equation equilibrium experiment experimental expression filter FTNMR gases Hamiltonian hydrogen intermolecular invariants isotropic kinetic theory Larmor frequency lattice linear long pulse magnetic field Magnetic Resonance matrix elements measurements method methyl group molecular motion nematic nematic order nuclear Larmor frequency Nuclear Magnetic Nuclear Magnetic Resonance nuclear spin nuclear spin relaxation nuclei observed obtained operator orientation oscillator parameters perturbation phase detector Phys polarization potential precession predicted problem protons quantum mechanical range relaxation mechanism relaxation rate reorientation rotating field rotating frame sample semiclassical signal solid solvent spectral density spectrometer Spectroscopy spectrum spin system spin-lattice relaxation spin-rotation interaction splitting symmetry temperature dependence tion transition tunnelling two-level system values width Zeeman zero