Magnetization

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Physics
Condensed matter physics
Phase transitions

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Related lectures (32)

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Soft Magnets for Technical Applications

Explores soft magnets' definition, magnetization processes, applications in transformers, RF circuits, and sensors, along with global market insights.

Isolated Magnetic Moments: Magnetic Susceptibility

Explores the concept of magnetic susceptibility as a tensor of proportionality between magnetization and the magnetizing field.

Exchange Interaction: Isotropic and Magnetic Field Interpretation

Explores isotropic exchange interaction in materials and its magnetic field interpretation, affecting ferromagnetic behavior and critical temperature.

Magnetic Sensors: AMR and GMR

Explores AMR and GMR sensors, their principles, sensitivity to weak fields, and applications.

Phase Transition in Ising Model

Explores phase transitions in the Ising model, discussing equilibrium states, magnetization, and critical points.

Magnetic anisotropy: fundamentals and applications

Explores magnetic anisotropy energy, orbital moments, bit magnetization, superparamagnetism, and atomic-scale engineering in nanostructures.

Curie-Weiss Model: Magnetization and Phase Transition

Explores the Curie-Weiss model, magnetization, and phase transitions in materials.

Magnetic Materials and Spintronics: Recent Advances

Explores recent advances in magnetic materials and spintronics, including manipulating magnetization with light pulses and essentials for high-density magnetic random-access memory.

Magnetic Domains and Walls

Explores magnetic domains and walls in ferromagnetic materials, discussing their formation, energy considerations, and domain configurations.

Isolated Magnetic Moments: Lande Factor

Explains the derivation of the Lande g-factor, which is the total magnetization of a system.