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Atomic Force Microscope: Imaging and Modes
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Related lectures (32)
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Magnetic Domains and Walls: Properties and Characteristics
Explores magnetic domains, domain walls, and their energy considerations in materials like iron, cobalt, and nickel.
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Magnetic Materials: Elements, Fields, and Interactions
Explores the magnetic periodic table, ferromagnets, antiferromagnets, magnetic fields, and Maxwell's equations in polarizable matter.
Magnetic Materials: Hysteresis Curves Explained
Covers hysteresis curves in magnetic materials, focusing on soft and hard magnets and their applications.
Nanoscale MEMS: Fabrication, Tips, and Microscopy
Covers the fabrication of nanoscale MEMS devices and the operation of the Atomic Force Microscope for measuring ultrasmall forces on particles.
Soft Magnets: Applications and Loss Mechanisms
Explores the definition and applications of soft magnets, including their use in transformers and the optimization of losses in AC applications.
Nanoscale Properties: Surface Effects and Quantum Phenomena
Delves into nanoscale properties, emphasizing surface effects and quantum phenomena, exploring electronic, mechanical, magnetic, photonic, and chemical properties unique to the nanoscale.
Magnetic anisotropy: fundamentals and applications
Explores magnetic anisotropy energy, orbital moments, bit magnetization, superparamagnetism, and atomic-scale engineering in nanostructures.
Bloch Wall: General Considerations in the Bulk
Discusses exchange length, reversal processes, and Bloch walls in magnetic materials.
Magnetic Anisotropy: Observations in Iron, Nickel, and Cobalt
Analyzes magnetization curves in iron, nickel, and cobalt to explain magnetic anisotropy.
