Nuclear Resonance in Magnetic Materials: A Course Given in 1961 at Osaka University

A. M. Portis absorption agreement with experiment alloys angular momentum anisotropy antiferromagnetic arises Co59 resonance cobalt component of spin computed coupling discussed domain wall electrons energy exchange interaction expect F19 resonance Fe2+ Fe3+ ions Fe57 resonance ferromagnetic free induction decay given Hn/M hyperfine field impurity insulators interactions between spins isotropic Jaccarino Japan KMnF3 lattice line width longitudinal relaxation magnetic field magnetic materials magnon Mc/sec metals Mn2+ ions MnF2 Moriya Mossbauer msec Neel Temperature nickel nuclear magnetization nuclear relaxation nuclear resonance nuclear spins nuclei observed obtain Ogawa paramagnetic Phys Physica proton resonance pulse quadrupole R. G. Shulman relaxation rate resonance frequency RESONANCE IN MAGNETIC resonance line resonance studies rf field shift shown in Fig signal spin excitation spin wave spin wave spectrum spin-spin splitting static field sublattice susceptibility Table temperature dependence tion transition transverse relaxation Weger yttrium iron garnet