Figure 3: Close Aperture Z-Scan Trace at High Repetition Rate Laser.

doi 10.7717/peerjpchem.1/fig-3
Full Text
Abstract

Available in full text

Date

Unknown

Authors

Unknown

Publisher

PeerJ

Related search

Figure 4: Close Aperture Z-Scan Trace at Different Laser Repetition Rates.

English

Figure 5: Open Aperture Z-Scan Trace at Different Repetition Rates.

English

Figure 2: Open and Close Aperture Z-Scan.

English

Microstructured Waveguides in Z-Cut LiNbO_3 by High-Repetition Rate Direct Femtosecond Laser Inscription

Optical Materials Express
OpticalElectronicMagnetic Materials
2014English

Study of Laser Interaction in Water Flow Confinement at High Repetition Rate

Journal of Laser Applications
InstrumentationElectronicOpticsMolecular Physics,OpticalAtomicMagnetic MaterialsBiomedical Engineering
2017English

Figure 9: Image of Close Aperture Z-Scan Traces as a Function of the Variation of Pulse-To-Pulse Separation.

English

Study of Filamentation With a High Power High Repetition Rate Ps Laser at 103 Μm

Optics Express
OpticsAtomicMolecular Physics,
2016English

Frequency and Duty Cycle Modulation Optimization in Minimizing Thermal Accumulation Effect inZ-scan Measurement With High-Repetition-Rate Laser

Japanese Journal of Applied Physics, Part 1: Regular Papers & Short Notes
EngineeringAstronomyPhysics
2014English

Mid-Infrared Laser Filaments in Air at a Kilohertz Repetition Rate

Optica
OpticsMolecular Physics,OpticalAtomicMagnetic MaterialsElectronic
2016English

Amanote Research

Note-taking for researchers

Follow Amanote

© 2025 Amaplex Software S.P.R.L. All rights reserved.

Privacy PolicyRefund Policy