Lectures related to Magnetic Field Measurement: Hall Sensor

Nanomagnetism: Magnetic Fields and Domains

Explores magnetism, magnetic sources, fields, domains, hysteresis, energy contributions, types of magnetism, and nanoscale magnetic structure investigation.

Magnetic Sensors: Principles and Applications

Explores magnetic sensors' principles, materials, applications, and sensor sensitivity in measuring magnetic fields.

Demagnetization Field: External vs Internal Fields

Explores demagnetization field in non-ellipsoidal bodies, comparing external and internal fields and discussing magnetic energy and shape anisotropy.

Magnetic Hysteresis: Behavior and Loops

Covers magnetic hysteresis, coercive fields, and soft magnetic materials, including the history of coercive fields and interpreting hysteresis curves.

Magnetic Properties: Materials and Magnetization

Explores magnetic properties of materials, types of magnetism, and hysteresis curves.

Magnetism: Materials & Fields

Explores induction, Maxwell's equations, magnetic materials, electromagnetism, and hysteresis cycles in ferromagnets.

Materials Science of Magnetic Materials

Covers the materials science of magnetic materials, focusing on properties, concepts, and optimization for functional applications.

Ferromagnetism: Magnetic Properties

Explores the magnetic properties of ferromagnetic materials, including retention of magnetization and hysteresis cycles.

Magnetic anisotropy: fundamentals and applications

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

Maxwell's Equations in Polarized Matter: Lorentz Transformation

Explores Maxwell's equations in polarized matter and fields transformation under different frames.

Magnetic Anisotropy: Basics and Applications

Explores magnetic anisotropy fundamentals, temperature effects, and applications in modern technologies.

Maxwell's Equations: Evaluating Magnetic Fields from Magnetization

Covers the use of Maxwell's equations to evaluate magnetic fields from magnetization in materials.

Magnetic Properties of Materials

Explores diamagnetism, paramagnetism, and ferromagnetism in materials' magnetic properties.

Magnetic Order: Ferromagnetism

Explores ferromagnetism, domains, domain walls, remnant magnetization, coercive field, and the Barkhausen effect.

Ferromagnets and the Ising Model

Covers the Ising model, ferromagnetic materials, spins on a lattice, and spin correlations.

Magnetic Materials: Introduction

Covers the fundamentals of magnetic materials, including H-fields and demagnetization factors.

Magnetic Properties Overview

Introduces magnetization, magnetic moments, and properties of materials, focusing on diamagnetism, paramagnetism, and ferromagnetism.

Magnetic Materials: Hysteresis Curves Explained

Covers hysteresis curves in magnetic materials, focusing on soft and hard magnets and their applications.

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.

Nanomagnetism: Magnetic Structures and Interactions

Covers fundamental concepts of magnetism, types of magnetism, and techniques for investigating magnetic structures at the nanoscale.