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Magnetization. --- Equation of motions. --- Magnetic recording.
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This book is aims to be a comprehensive source on the physics and engineering of magneto-resistive heads. Most of the material is presented in a nonmathematical manner to make it more digestible for researchers, students, developers, and engineers.In addition to revising and updating material available in the first edition, Mallinson has added nine new chapters dealing with various aspects concerning spin valves, the electron spin tunneling effect, the electrostatic discharge effects, read amplifiers, and signal-to-noise ratios, making this a completely up-to-date reference.Th
Magnetic recorders and recording --- Heads. --- Magnetic heads --- Magnetic recording heads --- Electromagnets
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Magnetic nanostructures --- Crystal engineering of magnetic materials --- Magnetic recording --- Magnetocaloric materials --- Qubits --- qubits --- magnetic nanostructures --- magnetic recording --- magnetocaloric materials --- crystal engineering of magnetic materials --- Magnetochemistry --- Molecules --- Magnetochemistry. --- Magnetic properties --- Magnetic properties. --- Electrochemistry --- Magnetism --- Chemistry
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Magnetism --- Magnetic materials --- 537.6 --- Materials --- Magnetism. --- Magnetic materials. --- 537.6 Magnetism --- MATERIALS --- ELECTRON TRANSPORT --- ELECTRONIC PROPERTIES --- ELECTRICAL PROPERTIES --- OPTICAL PROPERTIES --- MAGNETIC PROPERTIES --- ELECTRONICS --- MAGNETIC RECORDING MATERIALS --- SENSORS --- RADIATION DETECTORS --- ACTUATORS --- PROPERTIES
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As the scaling of electronic semiconductor devices displays signs of saturation, the main focus of research in microelectronics is shifting towards finding new computing paradigms. Electron spin offers additional functionality to digital charge-based devices. Several fundamental problems, including spin injection to a semiconductor, spin propagation and relaxation, and spin manipulation by the gate voltage, have been successfully resolved to open a path towards spin-based reprogrammable electron switches. Devices employing electron spin are nonvolatile; they are able to preserve the stored information without external power. Emerging nonvolatile devices are electrically addressable, possess a simple structure, and offer endurance and speed superior to flash memory. Having nonvolatile memory very close to CMOS offers a prospect of data processing in the nonvolatile segment, where the same devices are used to store and process the information. This opens perspectives for conceptually new low-power computing paradigms within Artificial Intelligence of Things (AIoT). This Special Issue focuses on all topics related to spintronic devices such as spin-based switches, magnetoresistive memories, energy harvesting devices, and sensors that can be employed in in-memory computing concepts and in Artificial Intelligence.
Research & information: general --- Physics --- magnetic contacts --- reliability --- practical tests --- reaction distance --- extreme conditions --- spin-orbit torque MRAM --- reinforcement learning --- two-pulse switching scheme --- magnetic field-free switching --- machine learning --- torque --- the calculation in memory --- automation --- magnetic recording --- magnetic read heads --- current perpendicular-to-the-plane giant magnetoresistance --- Heusler alloys --- bit-patterned media --- exchange-coupled-composite media --- microwave-assisted magnetic recording --- hysteresis loop --- combined spin-transfer torque (STT) and spin-orbit torque (SOT) switching --- field like torque --- damping like torque --- magnetic tunnel junction --- magnetic contacts --- reliability --- practical tests --- reaction distance --- extreme conditions --- spin-orbit torque MRAM --- reinforcement learning --- two-pulse switching scheme --- magnetic field-free switching --- machine learning --- torque --- the calculation in memory --- automation --- magnetic recording --- magnetic read heads --- current perpendicular-to-the-plane giant magnetoresistance --- Heusler alloys --- bit-patterned media --- exchange-coupled-composite media --- microwave-assisted magnetic recording --- hysteresis loop --- combined spin-transfer torque (STT) and spin-orbit torque (SOT) switching --- field like torque --- damping like torque --- magnetic tunnel junction
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As the scaling of electronic semiconductor devices displays signs of saturation, the main focus of research in microelectronics is shifting towards finding new computing paradigms. Electron spin offers additional functionality to digital charge-based devices. Several fundamental problems, including spin injection to a semiconductor, spin propagation and relaxation, and spin manipulation by the gate voltage, have been successfully resolved to open a path towards spin-based reprogrammable electron switches. Devices employing electron spin are nonvolatile; they are able to preserve the stored information without external power. Emerging nonvolatile devices are electrically addressable, possess a simple structure, and offer endurance and speed superior to flash memory. Having nonvolatile memory very close to CMOS offers a prospect of data processing in the nonvolatile segment, where the same devices are used to store and process the information. This opens perspectives for conceptually new low-power computing paradigms within Artificial Intelligence of Things (AIoT). This Special Issue focuses on all topics related to spintronic devices such as spin-based switches, magnetoresistive memories, energy harvesting devices, and sensors that can be employed in in-memory computing concepts and in Artificial Intelligence.
magnetic contacts --- reliability --- practical tests --- reaction distance --- extreme conditions --- spin-orbit torque MRAM --- reinforcement learning --- two-pulse switching scheme --- magnetic field-free switching --- machine learning --- torque --- the calculation in memory --- automation --- magnetic recording --- magnetic read heads --- current perpendicular-to-the-plane giant magnetoresistance --- Heusler alloys --- bit-patterned media --- exchange-coupled-composite media --- microwave-assisted magnetic recording --- hysteresis loop --- combined spin-transfer torque (STT) and spin-orbit torque (SOT) switching --- field like torque --- damping like torque --- magnetic tunnel junction --- n/a
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Materials sciences --- Electronics and optics of solids --- elektronica --- materiaalkennis --- Electronics --- Materials --- Electronique --- Matériaux --- Electric properties --- Propriétés électriques --- Electronic apparatus and appliances --- Materials. --- Electric properties. --- #KVIV:BB --- Matériaux --- Propriétés électriques --- Electronic devices --- Physical instruments --- Scientific apparatus and instruments --- Electronic instruments --- Apparatus and appliances --- Electronic apparatus and appliances - Materials. --- Materials - Electric properties. --- MATERIALS --- ELECTRON TRANSPORT --- ELECTRONIC PROPERTIES --- ELECTRICAL PROPERTIES --- OPTICAL PROPERTIES --- MAGNETIC PROPERTIES --- ELECTRONICS --- MAGNETIC RECORDING MATERIALS --- SENSORS --- RADIATION DETECTORS --- ACTUATORS --- PROPERTIES
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