3.1 μm mid-infrared luminescence in Er3+ doped ZnF2 modified aluminum fluoride glass
C Zhang, C Zhang, C Yun, S Lai - Journal of Rare Earths, 2023 - Elsevier
Herein, melt-quenching and Er 3+ doping were used to synthesize fluoride glass specimens
with low phonon energies (582 cm− 1). These glass specimens exhibit intense 3.1 μm mid …
with low phonon energies (582 cm− 1). These glass specimens exhibit intense 3.1 μm mid …
A three-mode temperature sensing based on UC luminescence of Er: PbF2 crystal
J Tan, P Zhang, L Li, S Lu, Z Li, Y Hang, Z Chen - Ceramics International, 2024 - Elsevier
Optical temperature sensor, especially the temperature sensor made based on fluorescence
intensity ratio (FIR) technology, have numerous applications in temperature detection …
intensity ratio (FIR) technology, have numerous applications in temperature detection …
Intense broadband 3.1 μm emission in Er3+-doped fluoroaluminate-tellurite glass for mid-infrared laser application
C Zhang, C Zhang, C Yun, S Lai - Ceramics International, 2022 - Elsevier
Er 3+ single doped fluoroaluminate-tellurite glasses were made by employing a
conventional melt-quenching technique. A strong fluorescence around 3.1 μm was achieved …
conventional melt-quenching technique. A strong fluorescence around 3.1 μm was achieved …
Crystal growth, first-principles calculations, and enhanced 1.5–1.7 μm fluorescence emission from the Er, Ce: CaGdAlO 4 laser crystal
L Li, H Tan, Z Li, P Zhang, Z Chen - Journal of Materials Chemistry C, 2024 - pubs.rsc.org
Near-infrared (NIR) laser radiation based on Er3+-doped crystals has attracted considerable
attention owing to its important applications in medical imaging, spectroscopy, remote …
attention owing to its important applications in medical imaging, spectroscopy, remote …
Highly thermostable fluoride nanocrystal-in-glass composites (NGCs) for mid-infrared emission
D Yang, T Zhao, H Liang, J Kang, X Huang… - Journal of Materials …, 2022 - pubs.rsc.org
Nanocrystal-in-glass composites (NGCs), comprising custom-tailored nanocrystals (NCs)
embedded in a transparent glass matrix, have recently attracted more attention due to their …
embedded in a transparent glass matrix, have recently attracted more attention due to their …
The glass-forming region and 2.7 μm emission properties of Er3+-doped TeO2–MoO3–Nb2O5 tellurite glass
X Zhang, Y Tian, S Lin, B Li, J Zhang, S Xu - Journal of Solid State …, 2024 - Elsevier
In this paper, the glass forming region of TeO 2–MoO 3–Nb 2 O 5 (TMN) tellurite glass and
the luminescence properties of Er 3+ doped TMN glass at 2.7 μm were studied. The effects …
the luminescence properties of Er 3+ doped TMN glass at 2.7 μm were studied. The effects …
Thermal Field Simulation and Optimization of PbF2 Single Crystal Growth by the Bridgman Method
L Li, P Zhang, Z Li, Z Chen - Crystals, 2024 - mdpi.com
PbF2 single crystals are usually grown in the temperature gradient region by the Bridgman–
Stockbarger method. Temperature distribution during the growth process is particularly …
Stockbarger method. Temperature distribution during the growth process is particularly …
Simulation analyses and configuration optimizations of an LD pumped 3.1 µm Co/Er: PbF2 MIR laser
J Tan, W Zheng, L Zhang, Z Li, P Zhang, Y Hang… - Optik, 2023 - Elsevier
The demand for mid-infrared physics technology is increasing, and it is still a difficult process
from growing excellent laser crystals to performing laser experiments. In this paper, we …
from growing excellent laser crystals to performing laser experiments. In this paper, we …
Er 掺杂PbF2 晶体的局域团簇结构与光谱性能研究
李琳, 张沛雄, 谭俊成, 朱思祁, 尹浩… - Journal of Synthetic …, 2024 - opticsjournal.net
摘要本文采用Bridgman 法成功生长了一系列Er∶ PbF2 晶体. 利用基于密度泛函理论的第一性
原理计算详细研究了Er3+ 在PbF2 晶体中的团簇效应. 首次获得了Er∶ PbF2 …
原理计算详细研究了Er3+ 在PbF2 晶体中的团簇效应. 首次获得了Er∶ PbF2 …
Ag nanoparticles enhanced 3.1 μm mid-infrared emission of Er3+/Bi+ co-doped oxyfluoride tellurite glasses
S Wu, C Zhang - Optical Engineering, 2024 - spiedigitallibrary.org
The Er 3+/Bi+/Ag nanoparticles (NPs) triple-doped oxyfluoride tellurite glasses were
prepared by melt-quenching method, showing an intense 3.1 μ m mid-infrared fluorescence …
prepared by melt-quenching method, showing an intense 3.1 μ m mid-infrared fluorescence …