This book provides a comprehensive overview of the fascinating recent developments in atomic- and nanoscale magnetism, including the physics of individual magnetic adatoms and single spins, the synthesis of molecular magnets for spintronic applications, and the magnetic properties of small clusters as well as non-collinear spin textures, such as spin spirals and magnetic skyrmions in ultrathin films and nanostructures. Starting from the level of atomic-scale magnetic interactions, the book addresses the emergence of many-body states in quantum magnetism and complex spin states resulting from…mehr
This book provides a comprehensive overview of the fascinating recent developments in atomic- and nanoscale magnetism, including the physics of individual magnetic adatoms and single spins, the synthesis of molecular magnets for spintronic applications, and the magnetic properties of small clusters as well as non-collinear spin textures, such as spin spirals and magnetic skyrmions in ultrathin films and nanostructures. Starting from the level of atomic-scale magnetic interactions, the book addresses the emergence of many-body states in quantum magnetism and complex spin states resulting from the competition of such interactions, both experimentally and theoretically. It also introduces novel microscopic and spectroscopic techniques to reveal the exciting physics of magnetic adatom arrays and nanostructures at ultimate spatial and temporal resolution and demonstrates their applications using various insightful examples. The book is intended for researchers and graduate studentsinterested in recent developments of one of the most fascinating fields of condensed matter physics.
Roland Wiesendanger studied physics at the University of Basel, Switzerland, where he received his Ph.D. in 1987 and his habilitation degree in 1990, working in the field of scanning tunnelling microscopy and related techniques. In 1992 he accepted a Full Professor position at the University of Hamburg, related to the launch of the Microstructure Advanced Research Center Hamburg. In Hamburg, Roland Wiesendanger initiated the Center of Competence in Nano-scale Analysis, the Interdisciplinary Nanoscience Center Hamburg, the Collaborative Research Center of the German Research Foundation entitled "Magnetism from single atoms to nanostructures", and the Free and Hanseatic City of Hamburg Cluster of Excellence "Nanospintronics". Since the late 80s, Roland Wiesendanger has pioneered the technique of spin-polarized scanning tunnelling microscopy (SP-STM) and spectroscopy, which allowed the first real-space observation of magnetic structures at the atomic level. He also contributed significantly to the development of magnetic force microscopy (MFM) and magnetic exchange force microscopy (MExFM). Roland Wiesendanger is author or co-author of about 600 scientific publications and 2 textbooks, and editor or co-editor of 8 monographs. He has received numerous scientific awards and honours, including the American Vacuum Society's Nanotechnology Recognition Award in 2010, the first Heinrich Rohrer Grand Medal and Prize in 2014, and the Julius Springer Prize for Applied Physics in 2016. He is an elected member of the German Academy of Sciences "Leopoldina", the Hamburg Academy of Sciences, the German Academy of Technical Sciences "acatech", the Polish Academy of Sciences, and the European Academy of Sciences "EURASC". Additionally, he is a Fellow of the American Vacuum Society and the Surface Science Society of Japan. In 2015 he received an Honorary Doctor degree from the Technical University of Poznan.
Inhaltsangabe
Part I: From Single Spins to Complex Spin Textures.- Magnetic Spectroscopy of Individual Atoms, Chains and Nanostructures.- Scanning Tunneling Spectroscopies of Magnetic Atoms, Clusters, and Molecules.- Electronic Structure and Magnetism of Correlated Nanosystems.- Local Physical Properties of Magnetic Molecules.- Magnetic Properties of One-Dimensional Stacked Metal Complexes.- Designing and Understanding Building Blocks for Molecular Spintronics.- Magnetic Properties of Small, Deposited 3d Transition Metal and Alloy Clusters.- Non-collinear Magnetism Studied with Spin-polarized Scanning Tunneling Microscopy.- Theory of Magnetic Ordering at the Nanoscale.- Magnetism of Nanostructures on Metallic Substrates.- Part II: Spin Dynamics and Transport in Nanostructures.- Magnetization Dynamics on the Atomic Scale.- Magnetic Behavior of Single Nanostructures and their Mutual Interactions in Small Ensembles.- Fluctuations and Dynamics of Magnetic Nanoparticles.- Picosecond Magnetization Dynamics of Nanostructures Imaged with Pump-probe Techniques in the Visible and Soft X-ray Spectral Range.- Magnetic Antivortices.- Nonequilibrium Quantum Dynamics of Current-driven Magnetic Domain Walls and Skyrmions.- Imaging the Interaction of Electrical Currents with Magnetization Distributions.- Electron Transport in Ferromagnetic Nanostructures.
Part I: From Single Spins to Complex Spin Textures.- Magnetic Spectroscopy of Individual Atoms, Chains and Nanostructures.- Scanning Tunneling Spectroscopies of Magnetic Atoms, Clusters, and Molecules.- Electronic Structure and Magnetism of Correlated Nanosystems.- Local Physical Properties of Magnetic Molecules.- Magnetic Properties of One-Dimensional Stacked Metal Complexes.- Designing and Understanding Building Blocks for Molecular Spintronics.- Magnetic Properties of Small, Deposited 3d Transition Metal and Alloy Clusters.- Non-collinear Magnetism Studied with Spin-polarized Scanning Tunneling Microscopy.- Theory of Magnetic Ordering at the Nanoscale.- Magnetism of Nanostructures on Metallic Substrates.- Part II: Spin Dynamics and Transport in Nanostructures.- Magnetization Dynamics on the Atomic Scale.- Magnetic Behavior of Single Nanostructures and their Mutual Interactions in Small Ensembles.- Fluctuations and Dynamics of Magnetic Nanoparticles.- Picosecond Magnetization Dynamics of Nanostructures Imaged with Pump-probe Techniques in the Visible and Soft X-ray Spectral Range.- Magnetic Antivortices.- Nonequilibrium Quantum Dynamics of Current-driven Magnetic Domain Walls and Skyrmions.- Imaging the Interaction of Electrical Currents with Magnetization Distributions.- Electron Transport in Ferromagnetic Nanostructures.
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