帮助 关于我们

返回检索结果

硅酸镓镧族非线性光学晶体
Langasite Family Nonlinear Optical Crystals

查看参考文献44篇

文摘 中红外非线性光学晶体可以实现中红外激光频率转换、拓展激光波长,在民用和军用领域中有至关重要的应用价值。其中,硅酸镓镧族晶体具有透过范围宽、激光损伤阈值高、晶体质量好等优势,引起了国内外同行的广泛关注。在这篇综述中,我们基于现有的实验数据,研究和分析了三种重要的硅酸镓镧族晶体La_3Ga_5SiO_(14) (LGS)、La_3Ga_(5.5)Nb_(0.5)O_(14) (LGN)、La_3Ga_(5.5)Ta_(0.5)O_(14) (LGT)的综合性能,详细总结了它们在电光调Q开关和中红外光参量振荡以及差频激光输出方面的应用。最后,本文还讨论了今后硅酸镓镧族中红外非线性光学晶体的重点发展方向。
其他语种文摘 In the 1960s, Maiman constructed the first laser. Pulsed lasers with high repetition rates and short pulse widths have extensive applications in fiber optics, military applications, spectroscopy, laser ranging, materials processing, medicine, and frequency conversion, etc. For instance, short pulse lasers with high repetition rates are desirable for material processing, in which the processing speed depends upon the repetition rate of the laser source. Electro-optic Q-switching has numerous advantages in many fields because of its better hold-off ability, larger pulse energy, and more controllable repetition rates. In 1961, Franken et al. first applied a ruby laser directly to quartz crystals and observed double-frequency radiation. Afterward, Bloembergen et al. analyzed the principle of nonlinear optical parametric generation theoretically. Since then, nonlinear optics has been playing an increasingly vital role in human society. Mid-infrared (mid-IR) lasers using nonlinear optical (NLO) crystals have essential applications in science as well as in daily life (e.g., infrared remote sensing, biological tissue imaging, environmental monitoring, and minimally invasive medical surgery). For generating mid-IR lasers in the spectral range of 3-20 μm, NLO materials are indispensable for optical parametric oscillation (OPO) or difference frequency generation. It is common for the available wavelength range to be limited by multiphonon absorption in the oxide crystal, and the damage threshold for semiconductors is relatively low. At present, the most widely used NLO crystal materials in the mid-IR band are semiconductor crystals represented by ZnGeP2. However, their laser damage thresholds are low, which limits their application range. Therefore, one of the key issues in the field of NLO materials at present is to explore new mid-IR NLO crystal materials with excellent performance that are applicable to high-power lasers. Langasite materials are famous for their multifunctionality in optoelectronic applications, such as in piezoelectric convertors, electro-optic Q-switched laser generation, and surface acoustic wave devices. Their structure without central symmetry endows the crystal with electro-optic, piezoelectric, and NLO properties, and their laser damage threshold is high because they are oxides. The phonon energy of the crystal is low and the transmission range is wide owing to their composition, which may have important applications for mid-IR high-power lasers. The Langasite family comprise a set of perfect electro-optical crystals with an electro-optical coefficient of 2.3×10~(-12) m·V~(-1), a broad transmission spectral range, and a high optical damage threshold of 950 MW·cm~(-2). Besides, their small piezoelectric coefficient (6×10~(-12) C·N~(-1)) reveals the possibility for Q-switching under high repetition rates without a piezoelectric ring effect. In this brief review, three important compounds-La_3Ga_5SiO_(14), La_3Ga_(5.5)Nb_(0.5)O_(14), and La_3Ga_(5.5)Ta_(0.5)O_(14)-are investigated and analyzed based on available experimental data. The electro-optical Q-switch and mid-IR OPO applications are summarized in detail. Finally, promising search directions for new metal oxides that have good mid-IR NLO performances are discussed.
来源 物理化学学报 ,2020,36(1):1907009 【核心库】
DOI 10.3866/PKU.WHXB201907009
关键词 硅酸镓镧族 ; 中红外 ; 电光 ; 非线性 ; 光参量振荡
地址

山东大学,晶体材料研究所, 晶体材料国家重点实验室, 济南, 250100

语种 中文
文献类型 研究性论文
ISSN 1000-6818
学科 化学
基金 国家自然科学基金
文献收藏号 CSCD:6723939

参考文献 共 44 共3页

1.  Bierlein J D. Opt. Soc. Am. B: Opt. Phys,1989,6(4):622 被引 1    
2.  Chen C. Sci. China, Ser. B: Chem,1985,28(3):235 被引 5    
3.  Chen C. J. Opt. Soc. Am. B,1989,6(4):616 被引 41    
4.  Chen C. Opt. Lett,2002,27(8):637 被引 5    
5.  Chen C T. Appl. Phys. B: Lasers Opt,2009,97(1):9 被引 38    
6.  Ghotbi M. Appl. Phys. Lett,2006,89(17):173124 被引 6    
7.  Petrov V. Prog. Quantum Electron,2015,42:1 被引 13    
8.  Arriola A. Opt. Mater. Express,2017,7(3):698 被引 3    
9.  Zhao Z. Laser Photonics Rev,2017,11(2):1700005 被引 14    
10.  Pestov D. Proc. Natl. Acad. Sci. U.S.A,2008,105(2):422 被引 3    
11.  Chung I. Chem. Mater,2013,26(1):849 被引 17    
12.  Ohmer M C. MRS Bull,1998,23(7):16 被引 3    
13.  Ruderman W. MRS Online Proc. Libr,1997,484 被引 1    
14.  Schunemann P G. AIP Conf. Proc,2007,916(1):541 被引 1    
15.  Liang F. Coord. Chem. Rev,2017,333:57 被引 15    
16.  Liang F. Cryst. Growth Des,2017,17(4):2254 被引 10    
17.  Lu D. Opt. Express,2016,24(16):17603 被引 2    
18.  Ma S. Sci. Rep,2016,6:30517 被引 1    
19.  Ma S. Opt. Express,2017,25(20):24007 被引 2    
20.  Ma S. Opt. Commun,2019,447:13 被引 1    
引证文献 0 篇
论文科学数据集
PlumX Metrics
相关文献

 作者相关
 关键词相关
 参考文献相关

版权所有 ©2008 中国科学院文献情报中心 制作维护:中国科学院文献情报中心
地址:北京中关村北四环西路33号 邮政编码:100190 联系电话:(010)82627496 E-mail:cscd@mail.las.ac.cn 京ICP备05002861号-4 | 京公网安备11010802043238号