硼硅酸盐玻璃中超短激光脉冲作用下LiNbO3:Eu3+纳米晶体的偏振相关取向

IF 2.3 Q2 OPTICS

Advanced Optical Technologies Pub Date : 2023-07-25 DOI:10.3389/aot.2023.1237570

J. Ari, M. Cavillon, M. Lancry, B. Poumellec

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引用次数: 0

摘要

飞秒（fs）激光写入是一种灵活的方式，可以诱导玻璃材料内部的三维局部结构改变，如结晶。后者是玻璃成分、性能和激光参数的函数。先前的工作表明，在1030 nm fs激光照射下，33Li2O–33Nb2O5–13SiO2–21B2O3（LNSB）mol%的玻璃成分可使激光偏振定向的LiNbO3纳米晶体结晶。在本文中，我们提出了在玻璃组合物中掺入稀土[即铕（0.5、1和2mol%）]对fs激光辐照诱导的LiNbO3纳米晶体结晶过程的影响。将Eu3+离子嵌入这些纳米结构中，有兴趣开发新的集成和小型化可见波长的光学激光器和放大器。研究了重复率（RR）、脉冲能量和偏振等激光参数的影响。使用光学和电子显微镜技术对辐照区域进行了研究。讨论了Eu3+浓度对结晶行为（晶体形成和形态）的影响，因为Eu2O3在高达2mol%的LNSB玻璃中不起成核剂的作用。

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Polarization-dependent orientation of LiNbO3:Eu3+ nanocrystals using ultrashort laser pulses in borosilicate glasses

Femtosecond (fs) laser writing is a flexible way to induce three-dimensional local structural modifications inside glass materials, such as crystallization. The latter is a function of both glass composition, hence properties, and laser parameters. Previous works have shown that a glass composition of 33Li2O–33Nb2O5–13SiO2–21B2O3 (LNSB) mol% yields to crystallization of laser polarization orientable LiNbO3 nanocrystals upon irradiation with a 1,030 nm fs laser. In this paper, we present the effects of rare earth incorporation in the glass composition [i.e., europium (0.5, 1, and 2 mol%)] on the crystallization process of LiNbO3 nanocrystals induced by fs laser irradiation. The embedding of Eu3+ ions into these nanostructures has an interest in developing new integrated and miniaturized optical lasers and amplifiers in visible wavelengths. The influence of laser parameters, such as repetition rate (RR), pulse energy, and polarization, has been studied. Irradiated areas are investigated using optical and electron microscopy techniques. The effect of Eu3+ concentration on the crystallization behavior (crystal formation and morphology) is discussed, as Eu2O3 is not acting as a nucleation agent in LNSB glass up to 2 mol%.

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来源期刊

Advanced Optical Technologies OPTICS-

CiteScore

4.40

自引率

0.00%

发文量

期刊介绍： Advanced Optical Technologies is a strictly peer-reviewed scientific journal. The major aim of Advanced Optical Technologies is to publish recent progress in the fields of optical design, optical engineering, and optical manufacturing. Advanced Optical Technologies has a main focus on applied research and addresses scientists as well as experts in industrial research and development. Advanced Optical Technologies partners with the European Optical Society (EOS). All its 4.500+ members have free online access to the journal through their EOS member account. Topics: Optical design, Lithography, Opto-mechanical engineering, Illumination and lighting technology, Precision fabrication, Image sensor devices, Optical materials (polymer based, inorganic, crystalline/amorphous), Optical instruments in life science (biology, medicine, laboratories), Optical metrology, Optics in aerospace/defense, Simulation, interdisciplinary, Optics for astronomy, Standards, Consumer optics, Optical coatings.