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This book provides a comprehensive overview of the latest developments in the field of spin dynamics and magnetic damping. It discusses the various ways to tune damping, specifically, dynamic and static control in a ferromagnetic layer/heavy metal layer. In addition, it addresses all optical detection techniques for the investigation of modulation of damping, for example, the time-resolved magneto-optical Kerr effect technique.

Thin films --- Ferromagnetic materials. --- Nanostructures. --- Magnetic properties. --- Materials science. --- Magnetism. --- Magnetic materials. --- Spectroscopy. --- Microscopy. --- Engineering --- Materials --- Thin films. --- Materials Science. --- Surfaces and Interfaces, Thin Films. --- Magnetism, Magnetic Materials. --- Spectroscopy and Microscopy. --- Materials Engineering. --- Classical Electrodynamics. --- Materials. --- Surfaces. --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Surfaces (Technology) --- Coatings --- Thick films --- Surface phenomena --- Friction --- Surfaces (Physics) --- Tribology --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Analysis, Microscopic --- Light microscopy --- Micrographic analysis --- Microscope and microscopy --- Microscopic analysis --- Optical microscopy --- Optics --- Analysis, Spectrum --- Spectra --- Spectrochemical analysis --- Spectrochemistry --- Spectroscopy --- Chemistry, Analytic --- Interferometry --- Radiation --- Wave-motion, Theory of --- Absorption spectra --- Light --- Spectroscope --- Mathematical physics --- Physics --- Electricity --- Magnetics --- Material science --- Physical sciences --- Surfaces --- Qualitative --- Nanoscience --- Ferromagnetism --- Magnetic materials --- Surfaces (Physics). --- Surface chemistry --- Materials—Surfaces. --- Engineering—Materials. --- Optics. --- Electrodynamics. --- Dynamics --- Spectrometry --- Analytical chemistry

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This contributed volume provides a comprehensive overview of contemporary advancements in the field of nanomagnetism and spintronics. It covers a diverse range of topics, including the static and dynamic responses of designer nanomagnets, spin wave dynamics in ultra-thin ferromagnetic films, voltage-controlled magnetic anisotropy, magneto-elastic control of nanomagnet dynamics, mutual synchronization in spintronic oscillators, magnetic droplet solitons, and the applications of voltage-controlled magnetic anisotropy in spintronic devices. Each chapter discusses specific aspects of these subjects, exploring theoretical models, experimental methods, applications, and future directions, making it an essential resource for researchers, students, and professionals in the fields of physics, materials science, electrical engineering and nanonscience.

Magnetism. --- Nanoelectromechanical systems. --- Nanotechnology. --- Nanoscale Devices. --- Magnetic nanoparticles. --- Magnets. --- Spintronics.