Π£ΡΡΠΎΠΉΡΠΈΠ²ΠΎΡΡΡ ΠΌΠ°Π³Π½ΠΈΡΠ½ΡΡ ΡΠΎΡΡΠΎΡΠ½ΠΈΠΉ ΠΌΠ΅ΡΠ°Π»Π»ΠΈΡΠ΅ΡΠΊΠΈΡ Π½Π°Π½ΠΎΡΠΈΡΡΠ΅ΠΌ
Π’Π°ΠΊΠΈΠΌ ΠΎΠ±ΡΠ°Π·ΠΎΠΌ, Π±ΠΎΠ»ΡΡΠΎΠΉ ΠΈΠ½ΡΠ΅ΡΠ΅Ρ ΠΏΡΠ΅Π΄ΡΡΠ°Π²Π»ΡΠ΅Ρ ΡΠ°Π·ΡΠ°Π±ΠΎΡΠΊΠ° ΠΌΠ½ΠΎΠ³ΠΎΠΌΠ΅ΡΠ½ΠΎΠΉ Π’ΠΠ‘, ΠΊΠΎΡΠΎΡΠ°Ρ ΠΏΠΎΠ·Π²ΠΎΠ»ΠΈΠ»Π° Π±Ρ ΠΎΠΏΠΈΡΡΠ²Π°ΡΡ ΠΌΠ°Π³Π½ΠΈΡΠΈΡΠ΅ ΠΏΠ΅ΡΠ΅Ρ ΠΎΠ΄Ρ Π² ΡΠΈΡΡΠ΅ΠΌΠ°Ρ Ρ Π±ΠΎΠ»ΡΡΠΈΠΌ ΡΠΈΡΠ»ΠΎΠΌ ΡΡΠ΅ΠΏΠ΅Π½Π΅ΠΉ ΡΠ²ΠΎΠ±ΠΎΠ΄Ρ. ΠΡΠΈ ΡΡΠΎΠΌ Π²Π°ΠΆΠ½ΠΎ ΡΡΠΈΡΡΠ²Π°ΡΡ Π½Π΅ΡΠΊΠ²ΠΈΠ²Π°Π»Π΅Π½ΡΠ½ΠΎΡΡΡ ΠΏΡΡΠ΅ΠΉ ΠΏΠ΅ΡΠ΅Ρ ΠΎΠ΄Π° Π² ΠΌΠ½ΠΎΠ³ΠΎΠΌΠ΅ΡΠ½ΠΎΠΌ ΠΏΡΠΎΡΡΡΠ°Π½ΡΡΠ²Π΅ ΠΊΠΎΠ½ΡΠΈΠ³ΡΡΠ°ΡΠΈΠΎΠ½Π½ΡΡ ΠΏΠ°ΡΠ°ΠΌΠ΅ΡΡΠΎΠ². Π‘ΡΠ΅Π΄ΠΈ Π²ΡΠ΅Ρ Π²ΠΎΠ·ΠΌΠΎΠΆΠ½ΡΡ ΠΏΡΡΠ΅ΠΉ, ΡΠΎΠ΅Π΄ΠΈΠ½ΡΡΡΠΈΡ Π½Π°ΡΠ°Π»ΡΠ½ΠΎΠ΅ ΠΈ ΠΊΠΎΠ½Π΅ΡΠ½ΠΎΠ΅ ΡΠΎΡΡΠΎΡΠ½ΠΈΠ΅, Π½Π°ΠΈΠ±ΠΎΠ»ΡΡΠΈΠΌ ΡΡΠ°ΡΠΈΡΡΠΈΡΠ΅ΡΠΊΠΈΠΌ Π²Π΅ΡΠΎΠΌ ΠΎΠ±Π»Π°Π΄Π°Π΅Ρ ΠΏΡΡΡ… Π§ΠΈΡΠ°ΡΡ Π΅ΡΡ >
Π‘ΠΏΠΈΡΠΎΠΊ Π»ΠΈΡΠ΅ΡΠ°ΡΡΡΡ
- P. Griinberg, Layered magnetic structures: facts, figures, future, Journal of Physics. Condensed Matter 13, 7691−7706 (2001).
- T. Jamneala, V. Madhavan, M. F. Crommie, Kondo Response of a Single Antiferromagnetic Chromium Trimer, Physical Review Letters 87, 256 804 (2001).
- 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).
- 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).
- 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).
- S. Maekawa, T. Shinjo, Spin Dependent Transport in Magnetic Nanostructures, CRC Press (2002).
- P.A. Griinberg, Nobel Lecture: From spin waves to giant magnetoresistance and beyond, Review of Modern Physics 80, 1531−1540 (2008).
- A. Fert, Nobel Lecture: Origin, development, and future of spintronics, Review of Modern Physics 80, 1517−1530 (2008).
- Π Π€. ΠΠ΅ΡΡΠ°ΡΠ°Π±, Π.M. Π£Π·Π΄ΠΈΠ½, Π‘Π»ΠΎΠΈΡΡΠΎ-Π½Π΅ΠΎΠ΄Π½ΠΎΡΠΎΠ΄Π½ΡΠ΅ ΠΌΠ°Π³Π½ΠΈΡΠ½ΡΠ΅ ΡΠΎΡΡΠΎΡΠ½ΠΈΡ Π² ΠΌΠ΅ΡΠ°Π»Π»ΠΈΡΠ΅ΡΠΊΠΈΡ Π½Π°Π½ΠΎΡΠΈΡΡ, Π΅ΠΌ, Π°, Ρ , Π€ΠΈΠ·ΠΈΠΊΠ° Π’Π²Π΅ΡΠ΄ΠΎΠ³ΠΎ Π’Π΅Π»Π° 51, 141−146 (2009).
- 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).
- 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).
- S. Loth, S. Baumann, C.P. Lutz, D.M. Eigler, A.J. Heinrich. Bistabihty in Atomic-Scale Antiferromagnets, Science 335, 196−199 (2012).
- 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).
- 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).
- J.A. Stroscio, D.M. Eigler. Atomic and Molecular Manipulation with the Scanning Tunneling Microscope, Science 254, 1319−1326 (1991).
- 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).
- W.F. Brown, Jr., Thermal Fluctuations of a Single-Domain Ferromagnetic Particle, Physical Review 130, 1677−1686, (1963).
- D M. Apalkov, P.B. Visscher, Spin-torque switching: Fokker-Planck rate calculation, Physical Review B 72, 180 405® (2005).
- 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).
- 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)
- P. Hangi, P. Talkner, M Borkovec, Reaction-Rate Theory: Fifty Years After Kramers, Review of Modern Physics 62, 251−341, (1990).
- G.D. Billing, K.V. Mikkelsen, Molecular Dynamics and Chemical Kinetics, Vol. 1, Wiley-Interscience, New York (1996).
- R.A. Marcus. Solvent Dynamics and RRKM Theory of Clusters, Advances of Chemical Physics 101, 391−408, (1997).
- N.G. van Kampen, Stochastic Processes in Physics and Chemistry, 2nd ed., North-Holland, Amsterdam (1992).
- H. Eyring, M. Polanyi, Uber einfache Gasreaktionen, Zeitschrift fur Physikaische Chemie (Abteilung B) 12, 279−311 (1931).
- H. Eyring, The Activated Complex in Chemical Reactions, Journal of Chemical Physics 3, 107−115 (1935).
- R. Becker, W. Doring, Kinetische Behandlung der Keimbildung in ubersattigten Dampfern, Annals of Physics (Leipzig) 24, 719−752 (1935).
- E. Wigner, The Transition State Method, Transactions of the Faraday Society 34, 29−41 (1938).
- G.H. Vineyard, Frequency Factors and Isotope Effects in Solid State Processes, Journal of Physics and Chemistry of Solids 3, 121−127 (1957).
- H.A. Kramers, Brownian Motion in a Field of Force and The Diffusion Model of Chemical Reactions, Physica 7, 284−305, (1940).
- H.C. Brinkman, Brownian Motion in a Field of Force and The Diffusion Theory of Chemical Reactions, Physica 22, 29−34, (1956).
- R. Landauer and J. A Swanson, Frequency Factors in the Thermally Activated Process, Physical Review 121, 1668−1674, (1961).
- J.S. Langer, Statistical Theory of the Decay of Metastable States, Annals of Physics 54, 258−275, (1969).
- T. Ala-Nissila, S.C. Ying, Theory of Classical Surface Diffusion, Progress in Surface Science 39, 227−323, (1992).
- W.T. Coffey, Yu.P. Kalmykov, Rotational Diffusion and Dielectric Relaxation in Nematic Liquid Crystals, Advances in Chemical Physics 113, 487−551, (2000).
- M. Grant, J.D. Gunton, Theory for The Nucleation of a Crystalline Droplet from The Melt, Physical Review B 32, 7299−7307, (1985).
- L.P. Csernai, J.I. Kapusta, Nucleation of Relativistic First-Order Phase Transitions, Physical Review D 46, 1379−1390, (1992).
- 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).
- I. Klik. L. Gunther, First-Pass age-Tim, e Approach to Overbarrier Relaxation of Magnetization, Journal of Statistical Physics 60, 473−484, (1990).
- I. Klik, L. Gunther, Thermal Relaxation Over a Barrier in Single Domain Ferromagnetic Particles, Journal of Applied Physics 67, 4505−4507, (1990).
- H.B. Braun, Kramers’s Rate Theory, Broken Symmetries, and Magnetisation Reversal, Journal of Applied Physics 76, 6310−6315, (1994).
- H.B. Braun, Statistical Mechanics of Nonuniform Magnetization Reversal. Physical Review B 50, 16 501−16 521 (1994).
- 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).
- 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).
- J.C Keck, Variational Theory of Reaction Rates, Advances in Chemical Physics 13, 85−121 (1967).
- P.F. Bessarab, V.M. Uzdin, H. Jonsson, Harmonic transition state theory of thermal spin transitions, Physical Review Π 85, 184 409 (2012).
- 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).
- S. Uzdin. V. Uzdin, C. Demangeat, Magnetic Trimer on Non-Magnetic Substrate: From Frustration Towards Non-Colhneanty, Europhysics Letters 47, 556−561 (1999).
- W.H. Miller, Importance of Nonseparability in Quantum Mechanical Transition-State Theory, Accounts of Chemical Research 9, 306−312 (1976).
- Π.Π. ΠΡΡΠ΅Π²ΠΈΡ, Π. Π. ΠΠ΅Π»ΠΊΠΎΠ², ΠΠ°Π³Π½ΠΈΡΠ½ΡΠ΅ ΠΠΎΠ»Π΅Π±Π°Π½ΠΈΡ ΠΈ ΠΠΎΠ»Π½Ρ, ΠΠΎΡΠΊΠ²Π°, Π€ΠΈΠ·ΠΌΠ°ΡΠ»ΠΈΡ (1994).
- Π.Π. Π‘ΠΈΠ²ΡΡ ΠΈΠ½, ΠΠ±ΡΠΈΠΉ ΠΡΡΡ Π€ΠΈΠ·ΠΈΠΊΠΈ. Π’ΠΎΠΌ 3 ΠΠ»Π΅ΠΊΡΡΠΈΡΠ΅ΡΡΠ²ΠΎ, ΠΠΎΡΠΊΠ²Π°, ΠΠ°ΡΠΊΠ° (1977).
- Π. Pietzsch, A. Kubetzka, Π. 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).
- Π.Π€. ΠΠ΅ΡΡΠ°ΡΠ°Π±, Π. Π. ΠΡΠ΄Π½ΠΈΠΊ, B.M. Π£Π·Π΄ΠΈΠ½, ΠΠ΅ΠΊΠΎΠ»Π»ΠΈΠ½Π΅Π°ΡΠ½ΠΎΠ΅ ΠΌΠ°Π³Π½ΠΈΡΠ½ΠΎΠ΅ ΡΠΏΠΎΡΡΠ΄ΠΎΡΠ΅Π½ΠΈΠ΅ Π² ΠΌΠ°Π³Π½ΠΈΡΠ½ΠΎΠΌ Π΄ΠΈΠΌΠ΅ΡΠ΅ Π½Π° ΠΌΠ΅ΡΠ°Π»Π»ΠΈΡΠ΅ΡΠΊΠΎΠΉ ΠΏΠΎΠ΄Π»ΠΎΠΆΠΊΠ΅, ΠΠ·Π²Π΅ΡΡΠΈΡ Π ΠΠ. Π‘Π΅ΡΠΈΡ ΡΠΈΠ·ΠΈΡΠ΅ΡΠΊΠ°Ρ 77, 64−68 (2013).
- Π.Π’. Costa, Jr., R.B. Muniz. D.L. Mills, Ground State of Magnetic Dimers on Metal Surfaces, Physical Review Letters 94, 137 203 (2005).
- S.H. Liu, Quasispm Model of Itinerant Magnetism, Physical Review Π 13. 3962−3971 (1976).
- S.H. Liu, Quasispm Model of Itinerant Magnetism: High-Temperature Theory, Physical Review Π 15, 4281−4287 (1977).
- 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 Π 54, 1019−1035 (1996)
- M Born, J R Oppenheimer, Zur Quantentheorie der Molekeln, Annals of Physics (Leipzig) 84, 457−484 (1927)
- Π Π‘ ΠΠ°Π²ΡΠ΄ΠΎΠ², ΠΠ²Π°Π½ΡΠΎΠ²Π°Ρ ΠΌΠ΅Ρ Π°Π½ΠΈΠΊΠ°, ΠΠΎΡΠΊΠ²Π°, ΠΠ°ΡΠΊΠ° (1973)
- A Bergman, L Nordstrom, Π Π Klautau, S Fiota-Pessoa, Π Eriksson, Magnetic structures of small Fe, Mn, and Cr clusters supported on Cu (lll) Noncollmear first-principles calculations, Physical Review Π 75 224 425 (2007)
- A Antal, Π Lazarovits, L Udvardi, L Szunyogh, Π Ujfalussy, P Weinberger First principles calculations of spin interactions and the magnetic ground states of Cr trimers on Au (lll) Physical Review Π 77, 174 429 (2008)
- 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 Π 75, 174 436 (2007)
- Π E ΠΠ·ΡΠ»ΠΎΡΠΈΠ½ΡΠΊΠΈΠΉ, Π’Π΅ΡΠΌΠΎΠ΄ΠΈΠ½Π°ΠΌΠΈΡΠ΅ΡΠΊΠ°Ρ ΡΠ΅ΠΎΡΠΈΡ «ΡΠ»Π°Π±ΠΎΠ³ΠΎ» ΡΠ΅ΡΡΠΎΠΌΠ°Π³Π½Π΅ΡΠΈΠ·ΠΌΠ° Π°Π½ΡΠΈΡΠ΅ΡΡΠΎΠΌΠ°Π³Π½Π΅ΡΠΈΠΊΠΎΠ², ΠΡΡΠ½Π°Π» ΠΠΊΡΠΏΠ΅ΡΠΈΠΌΠ΅Π½ΡΠ°Π»ΡΠ½ΠΎΠΉ ΠΈ Π’Π΅ΠΎΡΠ΅ΡΠΈΡΠ΅ΡΠΊΠΎΠΉ Π€ΠΈΠ·ΠΈΠΊΠΈ 32, 1547−1562 (1957)
- Π’ Moriya Anisotropic Superexchange Interaction and Weak Ferromagnetism, Physical Review Π 120, 91−98 (1960)
- 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)
- 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)
- A Oswald, R Zeller, P J Braspenmng, P H Dedenchs, Interaction of Magnetic Impurities in Π‘ΠΈ and Ag Journal of Physics F Metal Physics 15, 193−212 (1985)
- L Udvardi, L Szunyogh, L Palotas, and P Weinberger, First-principles relatwishc study of spin waves in thin magnetic films, Physical Review Π 68, 104 436 (2003)
- GHO Daalderop PJ Kelly MFH Schuurmans, First-principles calculation of the magnetocrystalline anisotropy energy of iron, cobalt and nickel, Physical Review Π 41 11 919−11 937 (1990)
- G. Wu, Π 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).
- L. Bergqvist, A. Taioni, A. Bergman, C. Etz, Π. Eriksson, Atomistic spin dynamics of low-dimensional magnets, Physical Review Π 87, 144 401 (2013).
- 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 Π 58, 12 193−12 200 (1998).
- A. Bergman, A. Taroni, L. Bergqvist, J. Hellsvik, B. Hjorvarsson, Π. Eriksson, Magnon soffening in a ferromagnetic monolayer: A first-principles spin dynamics study, Physical Review Π 81, 144 416 (2010).
- P.W. Anderson, Localized Magnetic States in Metals, Physical Review 124, 41−53 (1961).
- S. Alexander. P.W. Anderson, Interaction Between Localized States in Metals, Physical Review 133, A1594-A1603 (1964).
- C.B. Π£Π·Π΄ΠΈΠ½, Π ΡΠ°ΡΡΠ΅Ρ, Ρ ΠΌΠ°Π³Π½ΠΈΡΠ½ΠΎΠΉ ΡΡΡΡΠΊΡΡΡΡ ΠΏΠΎΠ²Π΅ΡΡ Π½ΠΎΡΡΠ΅ΠΉ, ΠΏΡΠΈΠΏΠΎΠ²Π΅ΡΡ Π½ΠΎΡΡΠ½ΡΡ ΡΠ»ΠΎΠ΅Π² ΠΈ ΠΈΠ½ΡΠ΅ΡΡΠ΅ΠΉΡΠΎΠ² Sd-ΠΌΠ΅ΡΠ°Π»Π»ΠΎΠ², Π€ΠΈΠ·ΠΈΠΊΠ° Π’Π²Π΅ΡΠ΄ΠΎΠ³ΠΎ Π’Π΅Π»Π° 51, 1188−1197 (2009).
- S. Uzdin. V. Uzdin, Π‘. Demangeat, Non-collinear magnetism of Cr, Mn and Fe trimers supported on the non-magnetic metal surface, Surface Science 482−485, 965−969 (2001).
- 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).
- 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 Π 72, 224 437 (2005).
- R. Robles and L. Nordstrom, Noncollmear magnetism of Cr clusters on Fe surfaces, Physical Review Π 74, 94 403 (2006).
- H.J. Gotsis, N. Kioussis, Evolution of magnetism of Cr nanoclusters on Au (lll): First-principles electronic structure calculations, Physical Review Π 73, 14 436 (2006).
- A. Bergman, L. Nordstrom. Π.Π. Klautau, S. Fiota-Pessoa, O. Eriksson, Magnetic interactions of Mn clusters supported on Π‘ΠΈ, Physical Review Π 73, 174 434 (2006).
- Π. Hirai, Electronic Structure of Helical Spin Density Wave State in fee Iron, Journal of The Physical Society of Japan 61, 2491−2502 (1992).
- Jl. ΠΠ°Π΄Π°Π½ΠΎΠ², Π. ΠΠ΅ΠΉΠΌ, ΠΠ²Π°Π½ΡΠΎΠ²Π°Ρ ΡΡΠ°ΡΠΈΡΡΠΈΡΠ΅ΡΠΊΠ°Ρ ΠΌΠ΅Ρ Π°Π½ΠΈΠΊΠ°, ΠΠΎΡΠΊΠ²Π°, ΠΠΈΡ (1964).
- Π. Foulces, R. Haydock, The recursion method and expectation values, Journal of Physics C: Solid State Physics 19, 6573−6589 (1986).
- 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).
- 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).
- Π.Π. ΠΠΈΠ³Π»ΡΠ²ΡΠΊΠΈΠΉ, Π. Π. ΠΠΈΠ»ΠΈΠ½ΡΠΊΠ°Ρ, ΠΠ΅ΡΠΎΠ΄Ρ ΠΏΠΎΠΈΡΠΊΠ° Π³Π»ΠΎΠ±Π°Π»ΡΠ½ΠΎΠ³ΠΎ ΡΠΊΡΡΡΠ΅ΠΌΡΠΌΠ°, ΠΠΎΡΠΊΠ²Π°, ΠΠ°ΡΠΊΠ° (1991).
- 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).
- 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).
- 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).
- 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).
- 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).
- 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).
- 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).
- R. Elber, M. Karplus, A method for determining reaction paths in large molecules: Application to myoglobin, Chemical Physics Letters 139. 375−380 (1987).
- 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).
- C. Choi. R. Elber, Reaction path study of helix formation in tetrapeptides: Effect of side chains, Journal of Chemical Physics 94, 751−760 (1991).
- 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).
- 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).
- T.L. Gilbert. A phenomenological theory of damping in ferromagnetic materials, IEEE Transactions on Magnetics 40, 3443−3449 (2004).
- 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).
- 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)
- S Wang, P B Visschcr, Switching rate of magnetoresistive random access memory element verifying transition state theory Journal of Applied Physics 99, 08G106 (2006)
- PF Bessaiab VM Uzdm, H Jonsson, Size and shape dependence of thermal spin transitions in nanoislands Physical Review Letteis 110, 20 604 (2013)
- H Zabel, Magnetism of chromium at surfaces, at interfaces and in thin films, Journal of Physics Condensed Matter 11, 9303−9346 (1999)1. ΠΠ»Π°Π³ΠΎΠ΄Π°ΡΠ½ΠΎΡΡΠΈ
- ΠΠ²ΡΠΎΡ ΡΡΠΈΡΠ°Π΅Ρ ΠΏΡΠΈΡΡΠ½ΡΠΌ Π΄ΠΎΠ»Π³ΠΎΠΌ ΠΏΠΎΠ±Π»Π°Π³ΠΎΠ΄Π°ΡΠΈΡΡ ΡΠ²ΠΎΠΈΡ ΡΠΎΠ΄ΠΈΡΠ΅Π»Π΅ΠΉ Π€. Π‘. ΠΡΡΡΠ°ΡΠ°Π±Π° ΠΈ Π. Π. ΠΠ΅ΡΡΠ°ΡΠ°Π± Π·Π° Π²ΡΠ΅ΡΡΠΎΡΠΎΠ½Π½ΡΡ ΠΏΠΎΠ΄Π΄Π΅ΡΠΆΠΊΡ ΠΈ Π»ΡΠ±ΠΈΠΌΡΡ ΠΆΠ΅Π½Ρ Π’. Π‘ΠΈΠ³ΡΡΠΉΠΎΠ½ΡΠ΄ΠΎΡΡΠΈΡ Π·Π° ΡΠ΅ΡΠΏΠ΅Π½ΠΈΠ΅ ΠΈ ΡΠΎΠ·Π΄Π°Π½ΠΈΠ΅ Π±Π»Π°Π³ΠΎΠΏΡΠΈΡΡΠ½ΡΡ Π΄Π»Ρ ΡΠ°Π±ΠΎΡΡ ΡΡΠ»ΠΎΠ²ΠΈΠΉ.