Concept

Ultrafast laser spectroscopy

Related lectures (32)

MIR Spectral Domain and Femtosecond Amplifiers

Covers the MIR spectral domain, femtosecond amplifiers, and nonlinear optics, exploring experimental setups and applications like pump-probe spectroscopy.

High-power Ultrafast THz: Moves into the Terahertz Domain

Explores the progress in high-power THz generation for TDS, driven by ultrafast lasers, and discusses potential applications.

Femtosecond Laser Pulses

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

Introduction to Ultrafast Optics

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

Fluorescence: Applications in Photomedicine

Explores the principles of fluorescence lifetime and quenching in photomedicine.

Chirped Pulse Amplification: Ultrashort Laser Pulses

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

Autocorrelators: techniques and applications

Explores autocorrelators in laser systems, covering basic operation, noise characteristics, ultrafast lasers, and frequency conversion.

Ultrafast Phenomena

Explores ultrafast experiments to study material responses to light excitation.

Ultrafast Semiconductor Lasers

Explores the project MIXL, highlighting the importance of ultrafast semiconductor lasers for observing fast dynamics and enabling fast communication in nanotechnology.

Quantum Optomechanics: Light-Matter Interactions in Molecular Vibrations

Explores molecular quantum optomechanics, discussing light-matter interactions in molecular vibrations and the quantization of these vibrations.

Ultrafast Semiconductor Lasers

Explores the project MIXL, highlighting the benefits of ultrafast semiconductor lasers for various applications.

Laser Fusion: Principles and Applications

Provides an overview of laser fusion principles and applications, focusing on ultrafast lasers and their role in energy generation.

X-ray Photon Correlation Spectroscopy

Explores X-ray Photon Correlation Spectroscopy (XPCS) applications in materials science and condensed-matter physics, focusing on temporal fluctuations and nanoscale structures' movement and interactions.

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 Fundamentals and Applications

Explores laser fundamentals, historical perspective, and modern applications in engineering.

Fiber Coupling with Laser Diodes

Covers basic laser operation, ultrafast lasers, and fiber coupling with laser diodes.

Ultra-fast Lasers: Compact Design and Applications

Explores the development of compact ultra-fast lasers for diverse applications, emphasizing integration challenges, noise properties, and industrial implications.

Laser Fundamentals and Applications

Covers the basics of laser technology, different laser systems, and advanced laser applications.

X-ray Free-electron Lasers: Techniques and Applications

Explores X-ray free-electron lasers for studying ultrafast atomic processes.

Laser Systems: Theory and Applications

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

Related lectures (32)

MIR Spectral Domain and Femtosecond Amplifiers

Covers the MIR spectral domain, femtosecond amplifiers, and nonlinear optics, exploring experimental setups and applications like pump-probe spectroscopy.

High-power Ultrafast THz: Moves into the Terahertz Domain

Explores the progress in high-power THz generation for TDS, driven by ultrafast lasers, and discusses potential applications.

Femtosecond Laser Pulses

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

Introduction to Ultrafast Optics

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

Fluorescence: Applications in Photomedicine

Explores the principles of fluorescence lifetime and quenching in photomedicine.

Chirped Pulse Amplification: Ultrashort Laser Pulses

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

Autocorrelators: techniques and applications

Explores autocorrelators in laser systems, covering basic operation, noise characteristics, ultrafast lasers, and frequency conversion.

Ultrafast Phenomena

Explores ultrafast experiments to study material responses to light excitation.

Ultrafast Semiconductor Lasers

Explores the project MIXL, highlighting the importance of ultrafast semiconductor lasers for observing fast dynamics and enabling fast communication in nanotechnology.

Quantum Optomechanics: Light-Matter Interactions in Molecular Vibrations

Explores molecular quantum optomechanics, discussing light-matter interactions in molecular vibrations and the quantization of these vibrations.

Ultrafast Semiconductor Lasers

Explores the project MIXL, highlighting the benefits of ultrafast semiconductor lasers for various applications.

Laser Fusion: Principles and Applications

Provides an overview of laser fusion principles and applications, focusing on ultrafast lasers and their role in energy generation.

X-ray Photon Correlation Spectroscopy

Laser Systems

Laser Fundamentals and Applications

Explores laser fundamentals, historical perspective, and modern applications in engineering.

Fiber Coupling with Laser Diodes

Covers basic laser operation, ultrafast lasers, and fiber coupling with laser diodes.

Ultra-fast Lasers: Compact Design and Applications

Explores the development of compact ultra-fast lasers for diverse applications, emphasizing integration challenges, noise properties, and industrial implications.

Laser Fundamentals and Applications

Covers the basics of laser technology, different laser systems, and advanced laser applications.

X-ray Free-electron Lasers: Techniques and Applications

Explores X-ray free-electron lasers for studying ultrafast atomic processes.

Laser Systems: Theory and Applications

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