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Rare Earth Magnetism: Structures and Excitations |
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by Jens Jensen and Allan R. Mackintosh Clarendon Press . Oxford 1991 |
Table of contents
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The name is a PDF-version of the different sections or chapters. | |||
| 0 | PREFACE | i | ||
| 1 | ELEMENTS OF RARE EARTH MAGNETISM | 1 | ||
| 1.1 | A brief history | 2 | ||
| 1.2 | Rare earth atoms | 8 | ||
| 1.3 | The metallic state | 16 | ||
| 1.4 | Magnetic interactions | 39 | ||
| 1.5 | Rare earth magnetism | 50 | ||
| 2 | MAGNETIC STRUCTURES | 68 | ||
| 2.1 | Mean-field theory of magnetic ordering | 68 | ||
| 2.1.1 | The high-temperature susceptibility | 71 | ||
| 2.1.2 | The mean-field approximation | 74 | ||
| 2.1.3 | Transversely ordered phases | 79 | ||
| 2.1.4 | Longitudinally ordered phases | 83 | ||
| 2.1.5 | Competing interactions and structures | 85 | ||
| 2.1.6 | Multiply periodic structures | 89 | ||
| 2.2 | The magnetic anisotropy | 94 | ||
| 2.2.1 | Temperature dependence of the Stevens operators | 94 | ||
| 2.2.2 | Anisotropic contributions to the free energy | 101 | ||
| 2.3 | Magnetic structures of the elements | 111 | ||
| 2.3.1 | Bulk magnetic structures | 112 | ||
| 2.3.2 | The magnetization of Holmium | 125 | ||
| 2.3.3 | Films and superlattices | 130 | ||
| 3 | LINEAR RESPONSE THEORY | 134 | ||
| 3.1 | The generalized susceptibility | 134 | ||
| 3.2 | Response functions | 137 | ||
| 3.3 | Energy absorption and the Green function | 142 | ||
| 3.4 | Linear response of the Heisenberg ferromagnet | 149 | ||
| 3.5 | The random-phase approximation | 154 | ||
| 3.5.1 | The generalized susceptibility in the RPA | 154 | ||
| 3.5.2 | MF-RPA theory of the Heisenberg ferromagnet | 160 | ||
| 4 | MAGNETIC SCATTERING OF NEUTRONS | 163 | ||
| 4.1 | The differential cross-section in the dipole approximation | 164 | ||
| 4.2 | Elastic and inelastic neutron scattering | 173 | ||
| 5 | SPIN WAVES IN THE FERROMAGNETIC HEAVY RARE EARTHS | 181 | ||
| 5.1 | The ferromagnetic hcp-crystal | 182 | ||
| 5.2 | Spin waves in the anisotropic ferromagnet | 186 | ||
| 5.3 | The uniform mode and spin-wave theory | 198 | ||
| 5.3.1 | The magnetic susceptibility and the energy gap | 198 | ||
| 5.3.2 | The validity of the spin-wave theory | 206 | ||
| 5.4 | Magnetoelastic effects | 211 | ||
| 5.4.1 | Magnetoelastic effects on the energy gap | 211 | ||
| 5.4.2 | The magnon-phonon interaction | 219 | ||
| 5.5 | Two-ion anisotropy | 231 | ||
| 5.5.1 | The dipole-dipole interaction | 232 | ||
| 5.5.2 | General two-ion interactions | 240 | ||
| 5.6 | Binary rare earth alloys | 247 | ||
| 5.7 | Conduction-electron interactions | 256 | ||
| 5.7.1 | The indirect-exchange interaction | 256 | ||
| 5.7.2 | The mass-enhancement of the conduction electrons | 270 | ||
| 5.7.3 | Magnetic contributions to the electrical resistivity | 275 | ||
| 6 | SPIN WAVES IN PERIODIC STRUCTURES | 285 | ||
| 6.1 | Incommensurable periodic structures | 286 | ||
| 6.1.1 | The helix and the cone | 287 | ||
| 6.1.2 | The longitudinally polarized structure | 300 | ||
| 6.2 | Commensurable periodic structures | 305 | ||
| 7 | CRYSTAL-FIELD EXCITATIONS IN THE LIGHT RARE EARTHS | 312 | ||
| 7.1 | MF-RPA theory of simple model systems | 313 | ||
| 7.2 | Beyond the MF-RPA Theory | 322 | ||
| 7.3 | Perturbations of the crystal-field system | 334 | ||
| 7.3.1 | Magnetoelastic effects and two-ion anisotropy | 334 | ||
| 7.3.2 | Conduction-electron interactions | 342 | ||
| 7.3.3 | Coupling to the nuclear spins | 349 | ||
| 7.4 | Magnetic properties of Praseodymium | 352 | ||
| 7.4.1 | Induced magnetic ordering | 352 | ||
| 7.4.2 | The magnetic excitations | 361 | ||
| 8 | PERSPECTIVES FOR RARE EARTH RESEARCH | 370 | ||
| REFERENCES | 381 | |||
| INDEX | 398 | |||
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APPENDIX (REVIEW) |
404 |
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A PDF-version of the whole book (with bookmarks and appendix). |
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Linear Response Theory and the Random Phase Approximation (International workshop on McPhase, Heinz Maier - Leibnitz Zentrum, Munich, 5.-7. November 2014). |
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Rare earth
magnetism: |
| Martin Rotter, McPhase is a program package for the calculation of magnetic properties, McPhase: A Mean field monte Carlo PHASE diagram program. |
| R. A. Cowley and J. Jensen, Magnetic structures and interactions in erbium, J. Phys. Condens. Mat. 4, 9673-96 (1992). |
| J. Jensen and R. A. Cowley, Magnetic non-planar structures and trigonal couplings in erbium, Europhys. Lett. 21, 705-10 (1993). |
| K. N. Clausen, K. A. McEwen,
J. Jensen, and A. R. Mackintosh, New mode of magnetic excitation in praseodymium, Phys. Rev. Lett. 72, 3104-7 (1994). |
| J. Jensen, 1/z-renormalization of the mean-field behavior of the dipole-coupled singlet-singlet system HoF3, Phys. Rev. B 49, 11833-41 (1994). |
| K. N. Clausen, S. Aagaard
Sørensen, K. A. McEwen, J. Jensen, and A. R. Mackintosh, Crystal fields and the conduction electrons in praseodymium, J. Magn. Magn. Mater. 140-144, 735-8 (1995). |
| R. M. Nicklow and N.
Wakabayashi, Spin excitations in the longitudinally modulated magnetic phase of erbium, Phys. Rev. B 51, 12425-32 (1995). |
| J. Jensen, Theory of commensurable magnetic structures in holmium, Phys. Rev. B 54, 4021-32 (1996). |
| J. Jensen, Threefold symmetric magnetic two-ion coupling in hcp rare-earth metals, Acta Phys. Pol. A 91, 89-103 (1997). |
| Magnetism in metals - A
symposium in memory of Allan Mackintosh, Copenhagen, 26-29 August, 1996,
eds.: D. F. McMorrow, J. Jensen, and H. M. Rønnow, Mat. Fys. Medd. Dan. Vid. Selsk. 45 (1997), 443 p. |
| D. A. Tindall, M. J. Small,
M. O. Steinitz, and Z. Tun, Experimental verification of the significance of trigonal coupling for the 1/4 lock-in in holmium, Physica B 241-243, 699-701 (1998). |
| M. Ellerby, K. A. McEwen, and
J. Jensen, Magnetoresistance and magnetization study of thulium, Phys. Rev. B 57, 8416-23 (1998). |
| J. Jensen, Magnetic structures and excitations in rare-earth metals. In: Magnetic and Superconducting Materials, eds. M. Akhavan, J. Jensen, and K. Kitazawa (World Scientific, Singapore, 2000) Vol. B, 711-26. |
| M. Ellerby, K. A. McEwen, E.
Bauer, R. Hauser, and J. Jensen, Pressure dependent resistivity and magnetoresistivity of erbium, Phys. Rev. B 61, 6790-97 (2000). |
| R. S. Sarthour, R. A.
Cowley, R. C. C. Ward, M. R. Wells, D. F. McMorrow, and J. Jensen, The magnetic phase diagram of HoxTm1-x alloys, Phys. Rev. B 62, 14943-9 (2000). |
| H. Ohsumi Magnetoelastic effect in holmium studied by x-ray diffraction, J. Phys. Soc. Jpn 71, 1732 (2002). |
| I. D. Hughes, M. Dãne, A.
Ernst, W. Hergert, M. Lõders, J. Poulter, J. B. Staunton, A. Svane, Z.
Szotek, and W. M. Temmerman, Lanthanide contraction and magnetism in the heavy rare earth elements, Nature 446, 650 (2007). |
| K. M. Dõbrich, A.
Bostwick, J. L. McChesney, K. Rossnagel, E. Rotenberg, and G. Kaindl, Fermi-surface topology and helical antiferromagnetism in heavy lanthanide metals, Phys. Rev. Lett. 104, 246401 (2010). |
