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The simultaneous enhancement of photorefraction and optical damage resistance in MgO and Bi2O3 co-doped LiNbO3 crystals

机译：MgO和Bi2O3共掺杂LiNbO3晶体同时增强光折变和抗光学损伤性

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For a long time that optical damage was renamed as photorefraction, here we find that the optical damage resistance and photorefraction can be simultaneously enhanced in MgO and Bi2O3 co-doped LiNbO3 (LN:Bi,Mg). The photorefractive response time of LN:Bi,Mg was shortened to 170 ms while the photorefractive sensitivity reached up to 21 cm²/J. Meanwhile, LN:Bi,Mg crystals could withstand a light intensity higher than 10⁶ W/cm² without apparent optical damage. Our experimental results indicate that photorefraction doesn’t equal to optical damage. The underground mechanism was analyzed and attributed to that diffusion dominates the transport process of charge carriers, that is to say photorefraction causes only slight optical damage under diffusion mechanism, which is very important for the practical applications of photorefractive crystals, such as in holographic storage, integrated optics and 3D display.

机译：长期以来，光学损伤被更名为光折射，我们发现在MgO和Bi2O3共掺杂的LiNbO3（LN：Bi，Mg）中，光学损伤的抵抗力和光折射可以同时提高。 LN：Bi，Mg的光折变响应时间缩短到170μms，而光折变灵敏度达到21μcm^{2 / J。同时，LN：Bi，Mg晶体可以承受高于10 ^{6 W / cm ^{2 的光强度，而没有明显的光学损伤。我们的实验结果表明，光折射不等于光学损伤。分析了地下机理并归因于扩散在电荷载流子的传输过程中占主导地位，也就是说，光折射在扩散机理下仅引起轻微的光学损伤，这对于光折变晶体的实际应用（例如全息存储）非常重要，集成光学元件和3D显示。}}}

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期刊名称 Scientific Reports
作者
Dahuai Zheng; Yongfa Kong; Shiguo Liu; Muling Chen; Shaolin Chen; Ling Zhang; Romano Rupp; Jingjun Xu;
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年(卷),期 -1(6),-1
年度 -1
页码 20308
总页数 7
原文格式 PDF
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1. The simultaneous enhancement of photorefraction and optical damage resistance in MgO and Bi2O3 co-doped LiNbO3 crystals [J] . Dahuai Zheng, Yongfa Kong, Shiguo Liu, Scientific reports. . 2016,第1期

机译：MgO和Bi2O3共掺杂LiNBO3晶体光反缩混和光学损伤性的同时增强
2. Structure and photo-damage resistance of Li-rich LiNbO3 crystals co-doped with Zn2+/Er3+ [J] . Zhen XH., Xu WS., Zhao CZ., Crystal Research and Technology: Journal of Experimental and Industrial Crystallography . 2002,第9期

机译：Zn2 + / Er3 +共掺杂的富锂LiNbO3晶体的结构和耐光损伤性
3. Femtosecond laser written optical waveguides in z-cut MgO:LiNbO3 crystal: Fabrication and optical damage investigation [J] . Lv Jinman, Cheng Yazhou, Lu Qingming, Optical Materials . 2016,第Jula期

机译：飞秒激光写入z切割MgO：LiNbO3晶体中的光波导：制备和光学损伤研究
4. Effect of Zn and Fe Concentrations on Structure and Optical Damage Resistances of Near Stoichiometric Zn:Fe:LiNbO3 Crystals [C] . Advanced Materials and Processing . 2004

机译：锌和铁浓度对近化学计量比的Zn：Fe：LiNbO3晶体结构和抗光学损伤性的影响
5. Enhancing the Thermo-Optical Response of Nematic Liquid Crystals [D] . McGinty, Colin 2019

机译：增强向列液晶的热光响应
6. Linear Tuning of Phase-Matching Temperature in LiNbO3:Zr Crystals by MgO Co-Doping [O] . Tengfei Kong, Hongde Liu, Liyun Xue, 2019

机译：MgO共掺杂对LiNbO3：Zr晶体中相匹配温度的线性调谐
7. Femtosecond laser written optical waveguides in z-cut MgO:LiNbO3 crystal: Fabrication and optical damage investigation [O] . Jinman Lv, Yazhou Cheng, Qingming Lu, 2016

机译：Z-Cut MgO中的飞秒激光写入光学波导：LINBO3晶体：制造和光学损伤调查
8. Single Crystal Fibers of MgO:LiNbO3. [R] . Schlecht, R. G. 1990

机译：mgO单晶纤维：LiNbO3。

The simultaneous enhancement of photorefraction and optical damage resistance in MgO and Bi2O3 co-doped LiNbO3 crystals

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