Устойчивость магнитных состояний металлических наносистем

Список литературы

1. P. Griinberg, Layered magnetic structures: facts, figures, future, Journal of Physics. Condensed Matter 13, 7691−7706 (2001).
2. T. Jamneala, V. Madhavan, M. F. Crommie, Kondo Response of a Single Antiferromagnetic Chromium Trimer, Physical Review Letters 87, 256 804 (2001).
3. S. Heinze, K. Bergmann, M. Menzel, J. Brede, Andre Kubetzka, R. Wiesendanger, G. Bihlmaycr, Stefan Bliigel, Spontaneous atomic-scale magnetic skyrmion lattice m two dimensions, Nature Physics 7, 713−718 (2011).
4. M. Bode, O. Pietzsch, A. Kubetzka, S. Heinze, R. Wiesendanger, Experimental Evidence for Intra-Atomic Noncollinear Magnetism at Thin Film Probe Tips, Physical Review Letters 86, 2142−2145 (2001).
5. M.N. Baibich, J.M. Broto, A. Fert, F. Nguyen Van Dau, F. Petroff, P. Etienne, G. Creuzet, A. Friederich, J. Chazelas, Giant Magnetoresistance of (001)Fe/(001)Cr Magnetic Superlattices, Physical Review Letters 61, 2472−2475 (1988).
6. S. Maekawa, T. Shinjo, Spin Dependent Transport in Magnetic Nanostructures, CRC Press (2002).
7. P.A. Griinberg, Nobel Lecture: From spin waves to giant magnetoresistance and beyond, Review of Modern Physics 80, 1531−1540 (2008).
8. A. Fert, Nobel Lecture: Origin, development, and future of spintronics, Review of Modern Physics 80, 1517−1530 (2008).
9. П Ф. Бессараб, В.M. Уздин, Слоисто-неоднородные магнитные состояния в металлических наносист, ем, а, х, Физика Твердого Тела 51, 141−146 (2009).
10. S. Krause. G. Herzog, T Stapelfeldt. L. Berbil-Bautista, M. Bode. E. Y. Vedmedenko, R. Wiesendanger. Magnetization Reversal of NanoscaJe Islands: How Size and Shape Affect the Arrhenius Prefactor, Physical Review Letters 103, 127 202 (2009).
11. I. Tudosa, C. Stamm, A.B. Kashuba, F. King, H.C. Siegmarm, J. Stohr, G.Ju. B. Lu, D. Weiler, The ultimate speed of magnetic switching in granular recording media, Nature 428, 831−833 (2004).
12. S. Loth, S. Baumann, C.P. Lutz, D.M. Eigler, A.J. Heinrich. Bistabihty in Atomic-Scale Antiferromagnets, Science 335, 196−199 (2012).
13. S. Krause, L. Berbil-Bautista, G. Herzog, M. Bode, R. Wiesendanger, Current-Induced Magnetization Switching with a Spin-Polarized Scanning Tunneling Microscope, Science 317, 1537−1540 (2009).
14. Y. Ren, T.T.M. Palstra, D.I. Khomskii, E. Pellegrin, A.A. Nugroho, A.A. Menovsky, and G.A. Sawatzky, Temperature-induced magnetization reversal in a YV03 single crystal, Nature 396, 441−444 (1998).
15. J.A. Stroscio, D.M. Eigler. Atomic and Molecular Manipulation with the Scanning Tunneling Microscope, Science 254, 1319−1326 (1991).
16. L. Xu, G. Henkelman, C.T. Campbell, H. Jonsson, Small Pd Clusters, up to the Tetramer At Least, Are Highly Mobile on the MgO (lOO) Surface, Physical Review Letters 95, 146 103 (2005).
17. W.F. Brown, Jr., Thermal Fluctuations of a Single-Domain Ferromagnetic Particle, Physical Review 130, 1677−1686, (1963).
18. D M. Apalkov, P.B. Visscher, Spin-torque switching: Fokker-Planck rate calculation, Physical Review B 72, 180 405® (2005).
19. W.T. Coffey, D.A. Garanin, D.J. McCarthy, Crossover Form, ulas in The Kram, ers Theory of Thermally Activated Escape Rates Application to Spin Systems, Advances in Chemical Physics 117, 483−765 (2001).
20. E.W. Meijer, Jacobus Henricus van 't Hoff- Hundred Years of Impact on Stereochemistry in the Netherlands, Angewandte Chemie (International Edition) 40, 3783−3789, (2001)
21. P. Hangi, P. Talkner, M Borkovec, Reaction-Rate Theory: Fifty Years After Kramers, Review of Modern Physics 62, 251−341, (1990).
22. G.D. Billing, K.V. Mikkelsen, Molecular Dynamics and Chemical Kinetics, Vol. 1, Wiley-Interscience, New York (1996).
23. R.A. Marcus. Solvent Dynamics and RRKM Theory of Clusters, Advances of Chemical Physics 101, 391−408, (1997).
24. N.G. van Kampen, Stochastic Processes in Physics and Chemistry, 2nd ed., North-Holland, Amsterdam (1992).
25. H. Eyring, M. Polanyi, Uber einfache Gasreaktionen, Zeitschrift fur Physikaische Chemie (Abteilung B) 12, 279−311 (1931).
26. H. Eyring, The Activated Complex in Chemical Reactions, Journal of Chemical Physics 3, 107−115 (1935).
27. R. Becker, W. Doring, Kinetische Behandlung der Keimbildung in ubersattigten Dampfern, Annals of Physics (Leipzig) 24, 719−752 (1935).
28. E. Wigner, The Transition State Method, Transactions of the Faraday Society 34, 29−41 (1938).
29. G.H. Vineyard, Frequency Factors and Isotope Effects in Solid State Processes, Journal of Physics and Chemistry of Solids 3, 121−127 (1957).
30. H.A. Kramers, Brownian Motion in a Field of Force and The Diffusion Model of Chemical Reactions, Physica 7, 284−305, (1940).
31. H.C. Brinkman, Brownian Motion in a Field of Force and The Diffusion Theory of Chemical Reactions, Physica 22, 29−34, (1956).
32. R. Landauer and J. A Swanson, Frequency Factors in the Thermally Activated Process, Physical Review 121, 1668−1674, (1961).
33. J.S. Langer, Statistical Theory of the Decay of Metastable States, Annals of Physics 54, 258−275, (1969).
34. T. Ala-Nissila, S.C. Ying, Theory of Classical Surface Diffusion, Progress in Surface Science 39, 227−323, (1992).
35. W.T. Coffey, Yu.P. Kalmykov, Rotational Diffusion and Dielectric Relaxation in Nematic Liquid Crystals, Advances in Chemical Physics 113, 487−551, (2000).
36. M. Grant, J.D. Gunton, Theory for The Nucleation of a Crystalline Droplet from The Melt, Physical Review B 32, 7299−7307, (1985).
37. L.P. Csernai, J.I. Kapusta, Nucleation of Relativistic First-Order Phase Transitions, Physical Review D 46, 1379−1390, (1992).
38. L. Neel, Theory of the Magnetic After-Effect in Ferromagnetics in the Form of Small Particles, with, Applications to Baked, Clays, Annales de Gcophysique 5, 99−136, (1949).
39. I. Klik. L. Gunther, First-Pass age-Tim, e Approach to Overbarrier Relaxation of Magnetization, Journal of Statistical Physics 60, 473−484, (1990).
40. I. Klik, L. Gunther, Thermal Relaxation Over a Barrier in Single Domain Ferromagnetic Particles, Journal of Applied Physics 67, 4505−4507, (1990).
41. H.B. Braun, Kramers’s Rate Theory, Broken Symmetries, and Magnetisation Reversal, Journal of Applied Physics 76, 6310−6315, (1994).
42. H.B. Braun, Statistical Mechanics of Nonuniform Magnetization Reversal. Physical Review B 50, 16 501−16 521 (1994).
43. G. Fiedler, J. Fidler, J. Lee, T. Schrefl, R. L. Stamps, H.B. Braun, D. Suess, Direct Calculation of The Attempt Frequency of Magnetic Structures Using The Finite Element Method, Journal of Applied Physics 111, 93 917 (2012).
44. R.F. Grote and J.T. Hynes, The Stable States Picture of Chemical Reactions. II. Rate Constants for Condensed and Gas Phase Reaction Models, Journal of Chemical Physics 73, 2715−2732 (1980).
45. J.C Keck, Variational Theory of Reaction Rates, Advances in Chemical Physics 13, 85−121 (1967).
46. P.F. Bessarab, V.M. Uzdin, H. Jonsson, Harmonic transition state theory of thermal spin transitions, Physical Review В 85, 184 409 (2012).
47. V.M. Uzdin, N.S. Yartseva, Periodic Anderson Model for The Description of Noncolhnear Magnetic Structure in Low-Dimensional 3d-systems, Computational Mateiials Science 10, 211−216 (1998).
48. S. Uzdin. V. Uzdin, C. Demangeat, Magnetic Trimer on Non-Magnetic Substrate: From Frustration Towards Non-Colhneanty, Europhysics Letters 47, 556−561 (1999).
49. W.H. Miller, Importance of Nonseparability in Quantum Mechanical Transition-State Theory, Accounts of Chemical Research 9, 306−312 (1976).
50. А.Г. Гуревич, Г. А. Мелков, Магнитные Колебания и Волны, Москва, Физматлит (1994).
51. Д.В. Сивухин, Общий Курс Физики. Том 3 Электричество, Москва, Наука (1977).
52. О. Pietzsch, A. Kubetzka, М. Bode, R. Wiesendangei, Real-Space Observation of Dipolar Antiferromagnetism in Magnetic Nanowires by Spin-Polarized Scanning Tunneling Spectroscopy, Physical Review Letters 84, 5212−5215 (2000).
53. П.Ф. Бессараб, М. Г. Дудник, B.M. Уздин, Неколлинеарное магнитное упорядочение в магнитном димере на металлической подложке, Известия РАН. Серия физическая 77, 64−68 (2013).
54. А.Т. Costa, Jr., R.B. Muniz. D.L. Mills, Ground State of Magnetic Dimers on Metal Surfaces, Physical Review Letters 94, 137 203 (2005).
55. S.H. Liu, Quasispm Model of Itinerant Magnetism, Physical Review В 13. 3962−3971 (1976).
56. S.H. Liu, Quasispm Model of Itinerant Magnetism: High-Temperature Theory, Physical Review В 15, 4281−4287 (1977).
57. V.P. Antropov, M.I. Katsnelson, B.N. Harmon. M. van Schilfgaarde, D. Kusnezov, Spin Dynamics in Magnets: Equation of Motion and Finite Temperature Effects, Physical Review В 54, 1019−1035 (1996)
58. M Born, J R Oppenheimer, Zur Quantentheorie der Molekeln, Annals of Physics (Leipzig) 84, 457−484 (1927)
59. А С Давыдов, Квантовая механика, Москва, Наука (1973)
60. A Bergman, L Nordstrom, А В Klautau, S Fiota-Pessoa, О Eriksson, Magnetic structures of small Fe, Mn, and Cr clusters supported on Cu (lll) Noncollmear first-principles calculations, Physical Review В 75 224 425 (2007)
61. A Antal, В Lazarovits, L Udvardi, L Szunyogh, В Ujfalussy, P Weinberger First principles calculations of spin interactions and the magnetic ground states of Cr trimers on Au (lll) Physical Review В 77, 174 429 (2008)
62. S Lounis, P Mavropoulos R Zeller, P H Dedenchs, S Blugel, Noncollmear magnetism of Cr and Mn nanoclusters on Ni (lll) Changing the magnetic configuration atom by atom Physical Review В 75, 174 436 (2007)
63. И E Дзялошинский, Термодинамическая теория «слабого» ферромагнетизма антиферромагнетиков, Журнал Экспериментальной и Теоретической Физики 32, 1547−1562 (1957)
64. Т Moriya Anisotropic Superexchange Interaction and Weak Ferromagnetism, Physical Review В 120, 91−98 (1960)
65. A I Liechtenstein, M I Katsnelson V A Gubanov, Exchange Interactions and Spin-Wave Stiffness in Ferromagnetic Metals, Journal of Physics F Metal Physics 14 L125-L128 (1984)
66. A I Liechtenstein, M I Katsnelson, V P Antropov, V A Gubanov, Local Spin Density Functional Approach to The Theory of Exchange Interactions in Ferromagnetic Metals and Alloys, Journal of Magnetism and Magnetic Materials 67, 65−74 (1987)
67. A Oswald, R Zeller, P J Braspenmng, P H Dedenchs, Interaction of Magnetic Impurities in Си and Ag Journal of Physics F Metal Physics 15, 193−212 (1985)
68. L Udvardi, L Szunyogh, L Palotas, and P Weinberger, First-principles relatwishc study of spin waves in thin magnetic films, Physical Review В 68, 104 436 (2003)
69. GHO Daalderop PJ Kelly MFH Schuurmans, First-principles calculation of the magnetocrystalline anisotropy energy of iron, cobalt and nickel, Physical Review В 41 11 919−11 937 (1990)
70. G. Wu, К H. Khoo, M.H. Jhon. H. Meng, S.Y.H. Lua, R. Sbiaa. C.K. Gan, First-prmciples calculations of the magnetic anisotropic constants of Co-Pd, multilayers: Effect of stacking faults, Europhysics Letters 99, 17 001 (2012).
71. L. Bergqvist, A. Taioni, A. Bergman, C. Etz, О. Eriksson, Atomistic spin dynamics of low-dimensional magnets, Physical Review В 87, 144 401 (2013).
72. E.E. Fullerton, J.S. Jiang. M. Grimsditch, C.H. Sowers, S.D. Bader. Exchange-spring behavior in epitaxial hard/soft magnetic bilayers, Physical Review В 58, 12 193−12 200 (1998).
73. A. Bergman, A. Taroni, L. Bergqvist, J. Hellsvik, B. Hjorvarsson, О. Eriksson, Magnon soffening in a ferromagnetic monolayer: A first-principles spin dynamics study, Physical Review В 81, 144 416 (2010).
74. P.W. Anderson, Localized Magnetic States in Metals, Physical Review 124, 41−53 (1961).
75. S. Alexander. P.W. Anderson, Interaction Between Localized States in Metals, Physical Review 133, A1594-A1603 (1964).
76. C.B. Уздин, К расчет, у магнитной структуры поверхностей, приповерхностных слоев и интерфейсов Sd-металлов, Физика Твердого Тела 51, 1188−1197 (2009).
77. S. Uzdin. V. Uzdin, С. Demangeat, Non-collinear magnetism of Cr, Mn and Fe trimers supported on the non-magnetic metal surface, Surface Science 482−485, 965−969 (2001).
78. S. Uzdin, V. Uzdin, C. Demangeat, Non-collinear structure of Cr tnmer on the surface of non-magnetic metals, Computational Materials Science 17, 441−444 (2000).
79. S. Lounis, P. Mavropoulos, P H. Dederichs, S. Blugel, Noncollmear Komnga-Kohn-Rostoker Green function method: Application to 3d nanostructures on Ni (001), Physical Review В 72, 224 437 (2005).
80. R. Robles and L. Nordstrom, Noncollmear magnetism of Cr clusters on Fe surfaces, Physical Review В 74, 94 403 (2006).
81. H.J. Gotsis, N. Kioussis, Evolution of magnetism of Cr nanoclusters on Au (lll): First-principles electronic structure calculations, Physical Review В 73, 14 436 (2006).
82. A. Bergman, L. Nordstrom. А.В. Klautau, S. Fiota-Pessoa, O. Eriksson, Magnetic interactions of Mn clusters supported on Си, Physical Review В 73, 174 434 (2006).
83. К. Hirai, Electronic Structure of Helical Spin Density Wave State in fee Iron, Journal of The Physical Society of Japan 61, 2491−2502 (1992).
84. Jl. Каданов, Г. Бейм, Квантовая статистическая механика, Москва, Мир (1964).
85. М. Foulces, R. Haydock, The recursion method and expectation values, Journal of Physics C: Solid State Physics 19, 6573−6589 (1986).
86. R. Haydock, V. Heine, M.J. Kelly, Electronic structure based on the local atomic environm, ent for tight-binding bands. Journal of Physics C: Solid State Physics 5, 2845−2858 (1972).
87. R. Haydock, V. Heine, M.J. Kelly, Electronic structure based on the local atomic environment for tight-binding bands: II, Journal of Physics C: Solid State Physics 8, 2591−2605 (1975).
88. А.А. Жиглявский, А. Г. Жилинскас, Методы поиска глобального экстремума, Москва, Наука (1991).
89. H.B. Schlegel, Optimization of Equilibrium Geometries and Transition Structures, in K.P. Lawley, Ed., Ab Initio Methods in Quantum Chemistry. Advances in Chemical Physics, Vol. 67, 249−286, Wiley, New York (1987).
90. G Henkelman, G. Johannesson. H. Jonsson, Methods for Finding Saddle Points and Minimum Energy Paths, in S.D. Schwartz. Ed., Progress on Theoretical Chemistry and Physics, 269−300, Kluwar Academic Publishers (2000).
91. T.A. Halgren, W.N. Lipscomb, The synchronous-transit method for determining reaction pathways and locating molecular transition states, Chemical Physics Letters 49, 225−232 (1977).
92. M.J. Rothman, L.L. Lohr, Analysis of an energy minimization method for locating transition states on potential energy hyper surf aces, Chemical Physics Letters 70, 405 409 (1980).
93. M.J.S. Dewar, E.F. Healy, J.J.P. Stewart, Location of Transition States in Reaction mechanisms, Journal of the Chemical Society. Faraday Transactions 2: Molecular and Chemical Physics 80, 227−233 (1984).
94. G. Henkelman, H. Jonsson. A dimer method for finding saddle points on high dimensional potential surfaces using only first derivatives, Journal of Chemical Physics 111, 7010−7022 (1999).
95. M.L. McKee, M. Page, Computing Reaction Pathways on Molecular Potential Energy Surfaces, in K.B. Lipkowitz, D.B. Boyd, Eds., Reviews in Computational Chemistry, Vol. IV, 35−65, VCH Publishers Inc. (1993).
96. R. Elber, M. Karplus, A method for determining reaction paths in large molecules: Application to myoglobin, Chemical Physics Letters 139. 375−380 (1987).
97. R.E. Gillilan. K.R. Wilson, Shadowing, rare events, and rubber bands. A variational Verlet algorithm for molecular dynamics, Journal of Chemical Physics 97. 1757−1772 (1992).
98. C. Choi. R. Elber, Reaction path study of helix formation in tetrapeptides: Effect of side chains, Journal of Chemical Physics 94, 751−760 (1991).
99. G. Mills, H. Jonsson, Quantum and thermal effects in Hg dissociative adsorption: Evaluation of free energy barriers in multidimensional quantum systems, Physical Review Letters 72, 1124−1127 (1994).
100. G. Henkelman, B. Uberuaga and H. Jonsson, A Climbing-Image NEB Method for Finding Saddle Points and Minimum Energy Paths, Journal of Chemical Physics 113, 9901−9904 (2000).
101. T.L. Gilbert. A phenomenological theory of damping in ferromagnetic materials, IEEE Transactions on Magnetics 40, 3443−3449 (2004).
102. C. Schieback, M. Klaui, U. Nowak, U. Rtidiger, P. Nielaba, Numerical investigation of spin-torque using the Heisenberg model, European Physical Journal B 59, 429−433 (2007).
103. B Skubic J Hellsvik, L Nordstrom, O Eriksson, A method for atomistic spin dynamics simulations implementation and examples, Journal of Physics Condensed Mattel 20 315 203 (2008)
104. S Wang, P B Visschcr, Switching rate of magnetoresistive random access memory element verifying transition state theory Journal of Applied Physics 99, 08G106 (2006)
105. PF Bessaiab VM Uzdm, H Jonsson, Size and shape dependence of thermal spin transitions in nanoislands Physical Review Letteis 110, 20 604 (2013)
106. H Zabel, Magnetism of chromium at surfaces, at interfaces and in thin films, Journal of Physics Condensed Matter 11, 9303−9346 (1999)1. Благодарности
107. Автор считает приятным долгом поблагодарить своих родителей Ф. С. Бсссараба и Л. О. Бессараб за всестороннюю поддержку и любимую жену Т. Сигурйонсдоттир за терпение и создание благоприятных для работы условий.