High-power mid-infrared femtosecond master oscillator power amplifier Er: ZBLAN fiber laser system
L Yu, J Liang, Q Zeng, J Wang, X Luo… - High Power Laser …, 2023 - cambridge.org
High-power femtosecond mid-infrared (MIR) lasers are of vast importance to both
fundamental research and applications. We report a high-power femtosecond master …
fundamental research and applications. We report a high-power femtosecond master …
InAs/GaSb superlattice SESAM mode-locked fluoride fiber laser at 2.8 µm
C Bao, X Zhou, Z Qin, G Xie - Optics Letters, 2024 - opg.optica.org
We demonstrate a mode-locked fluoride fiber laser operating at 2.8? µm using an InAs/GaSb
superlattice (SL) semiconductor saturable absorber mirror (SESAM). Z-scan measurements …
superlattice (SL) semiconductor saturable absorber mirror (SESAM). Z-scan measurements …
10 W, 2 mJ-level ns all-fiber amplifier at 2.8 µm
S Leonov, Q Perry-Auger, A Karim, D Zhang… - Optics Letters, 2024 - opg.optica.org
In this Letter, we demonstrate a single-stage erbium-doped fluoride fiber amplifier composed
of two spliced large core fibers with respective diameters of 85 and 130? µm. An optical …
of two spliced large core fibers with respective diameters of 85 and 130? µm. An optical …
Nearly diffraction-limited picosecond pulse amplification from LMA fluoride fiber at 2.8 µm
X Yuan, X Zhou, Z Qin, G Xie - Optics Express, 2024 - opg.optica.org
We demonstrated the generation of a nearly diffraction-limited picosecond pulse from a
large-mode-area (LMA) fluoride fiber amplifier. Seeded with a mode-locked fiber oscillator at …
large-mode-area (LMA) fluoride fiber amplifier. Seeded with a mode-locked fiber oscillator at …
High-power tunable Raman soliton generation in large core diameter passive fibers via a precise fundamental-mode matching technique
L Yang, X Wang, C Yao, Z Xu, G Ren, K Li, P Li - Optics Express, 2024 - opg.optica.org
We demonstrate tunable high-power, high-energy Raman solitons with the range of 1.9-2.3
µm in large mode area (LMA) fibers and an optimized fundamental-mode matching …
µm in large mode area (LMA) fibers and an optimized fundamental-mode matching …
5 W single-stage nanosecond Er3+-doped fluoride fiber amplifier operating at 2.78 µm
5 W single-stage nanosecond Er3+-doped fluoride fiber amplifier operating at 2.78 µm Page 1
5 W single-stage nanosecond Er3+-doped fluoride fiber amplifier operating at 2.78 µm Martin …
5 W single-stage nanosecond Er3+-doped fluoride fiber amplifier operating at 2.78 µm Martin …
High-energy Mid-IR Fiber CPA system at~ 2.78 µm using single-mode operation of a coiled 46µm core low-NA Er: ZBLAN fiber
High-energy Mid-IR Fiber CPA system at ~2.78µm using single-mode operation of a coiled
46µm core low-NA Er:ZBLAN fiber Page 1 High-energy Mid-IR Fiber CPA system at ~2.78µm …
46µm core low-NA Er:ZBLAN fiber Page 1 High-energy Mid-IR Fiber CPA system at ~2.78µm …
[PDF][PDF] High-energy and high-peak-power Q-switched Er3+/Dy3+ codoped fluoride fiber oscillator aiming at the 2.94 μm water absorption peak
In this Letter, we demonstrate high-energy and high-peak-power nanosecond pulse
generation aiming at the 2.94 μm water absorption peak, from a 980 nm diode-clad-pumped …
generation aiming at the 2.94 μm water absorption peak, from a 980 nm diode-clad-pumped …
Novel mid-IR light sources for emerging applications
P Ray - 2022 - publications.aston.ac.uk
The short-wave mid-infrared, ie, the wavelength band within 2.5–5 μm has been of keen
interest in recent research due to the presence of the molecular fingerprinting region …
interest in recent research due to the presence of the molecular fingerprinting region …