Concept

Spectral line

Related lectures (31)

Explores atoms and radiation lineshapes, covering linewidths, lifetime broadening, and broadening mechanisms, including Lorentzian and Doppler effects.

Spectral Lines: Natural Linewidth & Broadening

Explores natural linewidth and broadening effects on spectral lines in astronomy.

Laser Systems: Operation and Applications

Covers the basics of laser operation, different laser systems, noise characteristics, and practical demonstrations in the laboratory.

Blackbody Emission: Understanding Light Processes

Delves into how astronomers study celestial objects through emitted light, focusing on different spectra types and their origins, including examples like a light bulb filament and the Sun's spectrum.

Diagnostics: Plasma Properties and Measurements

Explores plasma properties, diagnostics, and measurements, including bremsstrahlung, line radiation, and magnetic field analysis.

Laser Systems and Atomic Transitions

Covers laser operation, systems, atomic transitions, gain, and absorption coefficient in the Lorentz model.

Optical Methods in Chemistry

Introduces optical methods in chemistry, covering ray optics, lasers, spectroscopy, and X-ray physics, emphasizing light-matter interactions and Nobel Prize-winning advancements.

Doppler Broadening: Fundamentals and Applications

Covers the Doppler line broadening, resonator cavities, lasing threshold conditions, and stimulated emission.

Propagation of Non-Gaussian Pulses

Explores the behavior of non-Gaussian pulses during propagation and limitations on bit rate.

HI 21 cm Line: Dynamics and Absorption

Explores the HI 21 cm line properties and interactions in the radio universe.

Quantum Physics: Harmonic Oscillator and Hydrogen Atom

Explores harmonic oscillators, infinite wells, and the hydrogen atom's quantum physics.

Spectroscopy Fundamentals

Covers the fundamentals of spectroscopy, including tools, color, Doppler effect, and molecular behavior.

Chemical Exchange: Part 1

Explores chemical exchange phenomena in magnetic resonance, covering symmetrical and unsymmetrical exchange, line-broadening effects, and distinct regimes.

Astrophysics: Interstellar and Intergalactic Matter

Covers molecular hydrogen, emission lines, and the color of stars.

Radiative Transfer

Explores radiative transfer, greenhouse effect, atmospheric absorption, and aerosol-cloud interactions in Earth's energy balance.

Electron oscillator model: absorption and refractive index

Explains how oscillating electron dipoles influence wave propagation and discusses absorption and refractive index.

Photon Absorption in SC

Explores photon absorption in semiconductors, covering spectral ranges and absorption coefficients.

Electromagnetic Radiation Interaction with Matter

Explores electromagnetic radiation interaction with matter, covering absorption, diffusion, reflection, and refraction, with practical examples like the color of the sky and moon darkness.

Multigroup theory

Covers the multigroup theory, focusing on the two-group method and resonance escape probability.

Computational Complexity

Covers the basics of computational complexity, including big O notation and complexity classes.