Lectures related to Direct and indirect band gaps

Photochemistry I: Band Structure and Excitonic Absorption

Explores band structure representation, excitonic absorption, and quantum size effects.

Optical Properties of Semiconductors: Understanding Absorption and Transitions

Discusses the optical properties of semiconductors, focusing on absorption coefficients and the differences between direct and indirect semiconductors.

Charge Carriers in Organic Electronics: Solitons and Polarons

Discusses charge carriers in organic materials, focusing on solitons, polarons, and their implications for charge transport and device performance.

Semiconductor Physics: Carrier Transport and Recombination

Explores semiconductor physics under high electric fields, discussing carrier transport, recombination processes, and the impact of injection.

Semiconductor Physics: Transistors and Diodes

Explores semiconductor physics, emphasizing transistors and diodes' behavior and operation.

Dispersion Relationships: Band Structures and Density of States

Discusses dispersion relationships, band structures, and density of states in real crystals and semiconductors.

Electronic Materials: Optical Properties

Explores electronic and optic properties of materials with lattice structures, including energy bands and band gaps.

Light-Matter Interactions: Optical Detectors Overview

Provides an overview of light-matter interactions and their implications for optical detectors, including absorption, emission, and the characteristics of various semiconductor materials.

Semiconductors: Basic Properties

Explores the basic properties of semiconductors, including conductivity, impurities, band gaps, and crystal structures.

Optical Transitions in Semiconductors

Explores optical transitions in semiconductors, including K-Selection Rule, bandgap importance, electromagnetic field effects, Fermi golden rule, and absorption coefficients.

Indirect Bandgap: Optical Detectors and Phonons

Covers the principles of optical detectors in semiconductors with an indirect bandgap, focusing on energy and momentum conservation during electron transitions.

Generation and Recombination

Explores the fundamental concepts of generation and recombination in semiconductors for photovoltaic devices.

Crystalline Silicon Absorption

Explores the properties of crystalline silicon absorbers in solar cells, discussing absorption coefficients, dispersion effects, and absorption mechanisms in semiconductors.

Optical Absorption: Understanding Semiconductor Behavior

Covers the principles of optical absorption in gases and semiconductors, detailing energy interactions and measurement techniques.

Solid State and Semiconductor Laser

Covers the theory and applications of solid-state and semiconductor lasers, including different types of lasers and their efficiency.

Optical Properties of Semiconductors

Explores the optical properties of semiconductors, including absorption spectrum changes and exciton physics.

Absorption, generation and recombination

Explores the optical properties of solar cells, focusing on absorption, reflection, and generation of electron-hole pairs.

Formation of Bands in Semiconductors: Energy States and Stability

Covers the formation of energy bands in semiconductors and their electronic properties.

Semiconductors: Equilibrium Properties and Charge Dynamics

Covers the equilibrium properties of semiconductors, focusing on charge dynamics and the influence of temperature on electron-hole generation.

Carrier Statistics and Fermi Energy

Covers the Fermi-Dirac function, carrier distribution, and band edges.