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Quantum and Nanocomputing: Advanced Nanostructures
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Related lectures (32)
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Antiferromagnetic Resonance
Explores the spin-flop transition, susceptibility, and magnetic resonance in antiferromagnets.
Magnetic Interactions: Ferromagnetism & Exchange
Covers ferromagnetism, antiferromagnetism, and paramagnetism, explaining exchange interactions and magnetic domains.
Anisotropy and Spin-Orbit Coupling
Explores anisotropy in magnetic materials, spin-orbit coupling effects, and magnetization curves.
Magnetic Anisotropy: Observations in Iron, Nickel, and Cobalt
Analyzes magnetization curves in iron, nickel, and cobalt to explain magnetic anisotropy.
Anisotropy and Hard Magnets: Problems & Solutions
Discusses anisotropy in ferromagnetic materials and the superimposition of orthogonal anisotropies.
Magnetic anisotropy: fundamentals and applications
Explores magnetic anisotropy energy, orbital moments, bit magnetization, superparamagnetism, and atomic-scale engineering in nanostructures.
Nanoscale Magnetism
Explores nanoscale magnetism, covering types of magnetism, magnetic domains, superparamagnetism, and applications in data storage.
Magnetic Materials: Elements, Fields, and Interactions
Explores the magnetic periodic table, ferromagnets, antiferromagnets, magnetic fields, and Maxwell's equations in polarizable matter.
Domain Walls in Magnetic Materials
Explores domain walls in magnetic materials, covering energy considerations, magnetic properties of iron, cobalt, and nickel, and processes for domain reversal.
Applications of Hard Magnets
Explores the applications and benefits of hard magnets in modern technologies, emphasizing their compact design advantages.
