Proceedings of the International School of Physics "Enrico Fermi.", Volume 70N. Zanichelli, 1978 - Nuclear physics |
From inside the book
Results 1-3 of 16
Page 14
... Curie temperatures of the rare - earth iron garnets are all very nearly the same , the largest difference being ... temperature is related . Further the Curie temperature is related to the number of magnetic interactions [ 54 ] , but ...
... Curie temperatures of the rare - earth iron garnets are all very nearly the same , the largest difference being ... temperature is related . Further the Curie temperature is related to the number of magnetic interactions [ 54 ] , but ...
Page 40
... Curie temperature of 493 K , 126 K higher than that of the analogous garnet ( Y1.5Ca1.5 } [ Fe ] ( Fe1.5Si1.5 ) O12 [ 78 ] . Subsequently we showed [ 102 ] that the Curie temperatures of the whole system were substantially higher than ...
... Curie temperature of 493 K , 126 K higher than that of the analogous garnet ( Y1.5Ca1.5 } [ Fe ] ( Fe1.5Si1.5 ) O12 [ 78 ] . Subsequently we showed [ 102 ] that the Curie temperatures of the whole system were substantially higher than ...
Page 42
... Curie temperatures and 0 K spontaneous magnetizations were made [ 138 ] . These are listed in table VIII with their ... temperature 72 K higher than that of the analogous { Y1.3Ca1.7 } [ Fe2 ] ( Fe , . , Si1.7 ) O12 . Garnet 2 has a higher ...
... Curie temperatures and 0 K spontaneous magnetizations were made [ 138 ] . These are listed in table VIII with their ... temperature 72 K higher than that of the analogous { Y1.3Ca1.7 } [ Fe2 ] ( Fe , . , Si1.7 ) O12 . Garnet 2 has a higher ...
Other editions - View all
Common terms and phrases
absorption angle anisotropy constants antiferromagnetic Appl axis birefringence Bloch lines Bloch point bubble calculated cation cm-¹ Co² Co³ coefficient concentration contribution crystal field cubic Curie temperature curve diamagnetic dichroism direction of magnetization domain wall effects electron energy levels equations exchange experimental Fe2+ Fe³ ferrimagnetic ferromagnetic resonance film formula unit frequency GELLER GILLEO given Hamiltonian interaction ion moments Journ K₁ lattice constant line width linear magnetic anisotropy magnetic field magneto-optical magnetoelastic magnons measurements modes neutron diffraction observed obtained octahedral octahedral sites optical orbital oxygen paramagnetic parameters phonons photoinduced photomagnetic Phys polarization polycrystalline properties rare-earth ions rare-earth iron garnets relaxation resonance room temperature rotation sample shown in fig sin² specimens spin wave spin-orbit coupling spontaneous magnetization sublattice substitution surface symmetry temperature dependence tetrahedral theory tion torque transitions uniaxial anisotropy valence values vector velocity yttrium iron garnet