Lectures related to Rock magnetism

Nanomagnetism: Magnetic Structures and Interactions

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

Exchange Interaction: Basic Concepts

Covers the basic concepts of exchange interaction in magnetic materials, including discrimination between different magnetic materials and critical temperatures.

Magnetic Materials: Elements, Fields, and Interactions

Explores the magnetic periodic table, ferromagnets, antiferromagnets, magnetic fields, and Maxwell's equations in polarizable matter.

Magnetism: Types and Susceptibility

Explores magnetism types, susceptibility, and magnetic domain behavior at different temperatures.

DC Motor Demonstration

Demonstrates a DC motor with separate excitation and explains why it accelerates unexpectedly when the excitation is cut off.

Magnetic Materials: Properties and Applications

Covers the classification, properties, and applications of various magnetic materials.

X-ray Magnetic Imaging Techniques

Covers x-ray magnetic imaging techniques, including XMCD, XRMS, and x-ray optics, for studying magnetic materials and domains.

Hard Magnetic Materials: Fabrication and Properties

Explores the fabrication and properties of hard magnetic materials, focusing on strategies for high coercivity and remanence.

Magnetism: Basics and Phenomena

Explores the basics of magnetism, magnetic fields, and magnetic properties in materials.

Maxwell's Equations: Evaluating Magnetic Fields from Magnetization

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

Nanomagnetism: Magnetic Fields and Domains

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

Magneto-optical Kerr Effect: Fundamentals and Applications

Covers the fundamentals of the Magneto-optical Kerr Effect (MOKE) and its applications in ultrafast magnetization processes and magnetic optical spectroscopy.

Modeling Interactions in Statistical Physics

Explores modeling interactions in statistical physics, focusing on energy, magnetization, and phase transitions.

Phenomenological Description: Magnetic Anisotropy

Explores the phenomenological description of magnetic anisotropy, including spin-orbit coupling effects and magnetization work.

Curie-Weiss Model: Magnetic Materials Simplified

Explores the Curie-Weiss model, illustrating how temperature affects magnetization in materials.

Curie-Weiss Model: Magnetization and Phase Transition

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

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: Ferromagnetics & Miller Indices

Discusses stationary creep, material properties, magnetic properties of ferromagnetics, and Miller indices in crystallography.

Magnetic anisotropy: fundamentals and applications

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

Density of States and Bayesian Inference in Computational Mathematics

Explores computing density of states and Bayesian inference using importance sampling, showcasing lower variance and parallelizability of the proposed method.