Mid-IR (44 μm) Zn1−xMnxSe:Cr2+,Fe2+ (x = 03) laser pumped by 17 μm laser using Cr2+-Fe2+ energy transfer
Author:
Funder
Grantová Agentura České Republiky
Russian Academy of Sciences
Publisher
The Optical Society
Subject
Atomic and Molecular Physics, and Optics
Reference14 articles.
1. 3.77-5.05-μm tunable solid-state lasers based on Fe/sup 2+/-doped ZnSe crystals operating at low and room temperatures
2. 40–45-µm lasing of Fe:ZnSe below 180 K, a new mid-infrared laser material
3. Efficient IR Fe:ZnSe laser continuously tunable in the spectral range from 3.77 to 4.40 μm
4. Progress in Cr and Fe doped ZnS/Se mid-IR CW and femtosecond lasers
5. Progress in Mid-IR Lasers Based on Cr and Fe-Doped II–VI Chalcogenides
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1. Formation of Cr2+-Fe2+ clusters in Zn0.7Mn0.3Se:Cr,Fe and Zn0.7Mg0.3Se:Cr,Fe crystals: Room-temperature spectroscopic properties and energy transfer;Materials Today Communications;2024-03
2. Excitation Transfer from Cr2+ to Fe2+ Ions in Co-doped ZnSe as a Pumping Scheme for Infrared Solid-State Lasers;Journal of Electronic Materials;2023-05-26
3. Efficient Electronic Excitation Transfer via Phonon-Assisted Dipole-Dipole Coupling inFe2+:Cr2+:ZnSe;Physical Review Applied;2023-05-12
4. The influence of Cr2+ to Fe2+ ions concentration ratio on the Cr,Fe:Zn(1-x)Mn(x)Se (x ≈ 0.15) laser properties excited via Cr2+ → Fe2+ energy transfer;Solid State Lasers XXXII: Technology and Devices;2023-03-08
5. Formation of Cr2+-Fe2+ Clusters in Zn0.7mn0.3se:Cr,Fe and Zn0.7mg0.3se:Cr,Fe Crystals: Room-Temperature Spectroscopic Properties and Energy Transfer;2023
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