Concept

Two-dimensional electron gas

Related lectures (26)

Ultrafast Carrier and Spin Dynamics in 2D Semiconductors

Reviews ultrafast carrier and spin dynamics in 2D semiconductors and their heterostructures, exploring unique optical responses and novel applications.

Charge Transport in Low Dimensional Systems

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

Functional Heterostructures: Solar Cell and Quantum Conductance

Explores the design of functional heterostructures for solar cells and delves into quantum conductance in low-dimensional systems.

Charge Transport in Semiconductors: Principles and Applications

Discusses charge transport in semiconductors, covering mobility, scattering phenomena, and the engineering of one-dimensional channels in two-dimensional electron gases.

Conductance in Ideal 2D Conductor

Explores conductance in ideal 2D conductors and electron confinement in potential wells.

Density of States in Semiconductor Devices

Explores density of states in semiconductor devices, covering electron gas, energy bands, Fermi-Dirac distribution, and band structures.

Nanowires: Quantum Effects and Conductance Jumps

Delves into nanowires' quantum behavior, resistance jumps, and practical experimentation methods.

Electron Gas and Crystal Lattice

Explores electron behavior in an electron gas and the periodic arrangement of atoms in crystalline solids, along with density of states in various dimensions and energy bands.

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.

Vibrations and Electronic Excitations

Explores phonon frequencies, heat capacity, thermal properties, vibrations in solids, free electron gas, Fermi function, and density functional theory.

Transport Properties in Semiconductors: Charge Dynamics and Conductivity

Covers the transport properties of semiconductors, focusing on charge dynamics, drift currents, and the relationship between mobility and conductivity.

Electronic Transport in Semiconductors

Explores electronic transport in semiconductors, including mobility, impurity scattering, and heterostructure potential wells.

Contact Resistance in Semiconductor Devices

Explores contact resistance in semiconductor devices, quantum resistance, quantized conductance, spin injection challenges, and strategies for reducing contact resistance.

Semiconductor Materials: Electron Mobility and Conductivity

Covers semiconductor materials, electron mobility, and conductivity characteristics of silicon.

Quantum Dots: Basic Concepts and Applications

Covers the concept of quantum dots, their similarities to atoms, and potential applications in quantum computation.

Electrons beyond conductivity

Explores thermophysical properties of metallic elements and cohesive energy in crystals.

Polynomials: Definitions and Operations

Covers the definition and operations of polynomials, including addition and multiplication, degree, coefficients, and their role in algebraic systems.

Quantum Structures: Band Gaps and Heterostructures

Covers the formation and properties of quantum wells and heterostructures in semiconductor materials.

Efficient Visible Light Emitters

Explores the historical evolution and challenges of efficient visible light emitters, focusing on LED technology and the quest for 100%+ efficiency.

Electronic Structure at Surfaces

Explores electronic properties of surfaces, absorption, charge transfer, and materials with high surface area.