Lecture

Autocorrelators: techniques and applications

Related lectures (32)

Autocorrelators

Covers the principles and applications of autocorrelators in laser technology.

Untitled

Autocorrelators: pulse measurement methods

Explores the principles and applications of autocorrelators in measuring laser pulse profiles.

Ultra-short Pulses & Mode-locking

Explores pulsed laser sources, mode-locking, and frequency metrology, emphasizing ultra-fast pulses and optical atomic clocks.

Untitled

Ultrafast Lasers: Modelocking

Explores ultrafast lasers and modelocking techniques for pulse generation and manipulation.

Laser Fundamentals: Coherence and Noise

Explores laser fundamentals, including coherence and noise characteristics, such as relaxation oscillations and shot noise.

Ultrafast pulse characterization: optical techniques

Explores ultrafast pulse characterization using optical techniques, covering pulse propagation, measurement methods, and autocorrelation.

Nonlinear Optics: Optical Kerr Effect and Phase Conjugation

Explores nonlinear optics phenomena, including optical rectification, frequency conversion, and phase conjugation.

Femtosecond Pulse Measurement

Explores femtosecond pulse measurement techniques and applications in laser engineering.

Femtosecond Laser Pulses

Explores femtosecond laser pulse generation, nonlinear optics, pulse compression, and laser systems for ultrafast pulses.

Active-Passive Modelocking: Fundamentals and Applications

Covers the fundamentals of active and passive modelocking in ultrafast lasers.

Chirped Pulse Amplification: Ultrashort Laser Pulses

Explores chirped pulse amplification for ultrashort laser pulses and the significance of Carrier-Envelope Phase stabilization.

Ultrafast nonlinear optics

Covers second and third-order nonlinear processes, ultrashort pulse characterization techniques, and optical parametric amplification.

Laser Systems

Covers the fundamental concepts of laser operation, including dispersion theory, gain and resonators, different types of laser systems, noise characteristics, optical fibers, ultrafast lasers, and nonlinear frequency conversion.

Laser Systems: Theory and Applications

Covers modules on laser systems, including basic operation, noise characteristics, and modern applications.

Laser Fundamentals and Applications

Explores laser fundamentals, systems, beam quality, and noise characteristics in lasers, including relaxation oscillations and shot noise.

Introduction to Ultrafast Optics

Introduces the fundamentals of ultrafast optics, covering light pulses, dispersion, mode-locked lasers, and chirped pulse amplification.

Quantum Optomechanics: Molecular Vibrations and Light Correlations

Delves into quantum correlations between light and molecular vibrations, exploring Raman scattering, phonon quantization, and optomechanical systems.

Nonlinear Optics III: Light-Matter Interaction

Covers pulsed optics, coherent spectroscopy, and nonlinear optical effects.