Nuclear Acoustic ResonanceAcademic Press, 1993 - 432 Nuclear Acoustic Resonance serves as an introduction to the field of nuclear acoustic resonance and highlights its differences from nuclear magnetic resonance. Topics covered range from the nature of the coupling mechanisms, including dynamic electric quadrupole coupling and dynamic Alpher-Rubin coupling, to experimental techniques. The application of nuclear acoustic resonance to the study of conducting media is given consideration. This book consists of 10 chapters and begins with a description of nuclear acoustic resonance, nuclear magnetic resonance, and combination acoustic-electromagneti ... |
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absorption and dispersion acoustic energy acoustic saturation acoustic wave amplitude antiferromagnet attenuation axis Chapter components composite resonator constant corresponding cos² cubic density dipolar dipole-dipole direction dynamic nuclear electric dynamic quadrupole effect electric field gradient electric quadrupole interaction electronic energy levels equation experimental Fedders given H₁ Hamiltonian ions lattice line shape line width longitudinal waves magnetic dipole magnetic field measured mechanical resonance metals mode modulation multipole NAR absorption NAR(A-R NAR1 NAR2 nuclear acoustic resonance nuclear electric quadrupole nuclear magnetic resonance nuclear quadrupole nuclear spin system nuclear spin-phonon nucleus observed obtain oscillator paramagnetic phonons Phys propagation pulse quadrupolar quadrupole coupling quadrupole moment RbMnF3 resonance frequency resonance line RF magnetic field rhenium S-tensor sample Section shown in Fig signal sin² solid specimen spectrometer spin-lattice relaxation spin-phonon interactions SQUID SQUID-detected strain susceptibility symmetry T₁ tantalum technique temperature tensor thermal transducer transitions ultrasonic velocity Voigt notation