Concept

Drude model

Related lectures (32)

Density Functional Theory and Tight-Binding Models

Explores modeling multilayer 2D materials, tight-binding models, and electrical conductivity in materials, emphasizing the importance of symmetries and reduced models.

Drude Model of Electrical Conductivity

Discusses the evolution of speed, impurities, and dose rate in electrical conductivity.

Quantum Theory of Electronic Transport

Explores the quantum theory of electronic transport, including Drude theory, Ohm's law, and Anderson localization.

Electrical Conductivity of Metals

Explores electrical conductivity in metals, semiconductors, and the optical properties of semiconductors.

Advanced Optics: Lorentz Model

Explores the Lorentz model in advanced optics, including the permittivity of hemoglobin and the Drude model for metals.

Electron Theory: Drude and Sommerfeld

Explores the Electron theory, including metallic bonds, electron movement assumptions, wave functions in a 3D-potential well, and Fermi energy.

Advanced Optics: Plasmonics Fundamentals

Delves into plasmonics fundamentals, covering the Drude model, scattering by small particles, plasmonic metals, resonant nanoparticles, and experimental observations.

Electrical Properties: Materials and Conductivity

Explores electrical properties of materials, including semiconductivity, insulators, and conductivity in metals.

Drude Model: Moving Charges

Explores the Drude model, charge scattering, conductivity, and temperature effects on materials.

Charge Transport in Low Dimensional Systems

Covers charge transport in semiconductors, low dimensional systems, quantum conductance, and the quantum Hall effect.

Direct Current Circuits: Kirchhoff's Laws and Resistors

Covers DC currents, resistors, capacitors, Kirchhoff's laws, and electromotive force in electric circuits.

Drude Model & DC Circuits: Conductivities, Ohm's Law, EMF

Covers the Drude model for electrical conductivities and introduces DC circuits.

Nonadiabatic Dynamics

Explores nonadiabatic dynamics, semiclassical methods, and the Meyer-Miller Stock Thoss mapping in the context of electronic state transitions.

Circuits with emf and resistors

Explores circuits with emf, resistors, Kirchhoff's laws, internal resistance, network analysis, and current calculations in multi-loop circuits.

Electrical and Magnetic Properties: Introduction to Materials Science

Explores electrical and magnetic properties of materials, including conductivity, dielectric properties, and magnetic behavior, crucial for material selection and functionality.

Electrical Properties: Drude Model

Explores electron movement in materials under electric fields and the derivation of the electrical conductivity formula.

Itinerant Magnetism: Overview

Discusses the free electron model, Pauli paramagnetism, band polarization, and orbital components.

Electron Orbitals and Fermi Energy

Explores electron orbitals, hybridized orbitals, and the Fermi energy in condensed matter.

Moving charges: War of Currents

Explores the 'War of Currents' and fundamental electromagnetism concepts.

Surface States and Charge Transport

Explores surface states, charge transport in semiconductors, and factors affecting mobility, emphasizing the importance of understanding and improving carrier mobility.