共查询到18条相似文献,搜索用时 229 毫秒
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K3Nd(PO4)2晶体是一种高稀土浓度的激光晶体.本文报道从KF-KCl体系中采用助熔剂法培养出K3Nd(PO4)2晶体.该晶体呈淡紫红色,属单斜晶系,P2_1/m空间群,晶胞参数为a=9.534 ,b=5.629 ,c=7.443 ,β=90.96°.测定了晶体室温下的吸收光谱、荧光光谱、激发光谱和红外光谱. 相似文献
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利用熔体提拉法生长了大尺寸,高质量的新型激光自倍频晶体Nd:GdxY1-x(Ca4O(BO3)3(简称Nd:GdYCOB),对Nd:GdYCOB晶体的XRD衍射图进行指标化,得到它的晶胞参数为a=8.080A;b=16.016A;c=3.538A,β=101.18,μ=491.1A3,对取自不同部位的晶体粉末进行ICP原子发射光 分析表明晶体整体组份均匀一致,根据熔体和晶体粉末的ICP数据计算,Nd:GdYCOB晶体中Nd3 的分凝系数为0.63,首次报道了Nd:GdYCOB晶体200-3000nm室温透过光谱和室温荧光光谱及荧光寿命,室温透过光谱表明Nd:GdYCOB晶体的紫外吸收边在-220nm,具有很宽的透光波段(-220-2700nm);Nd:GdYCOB晶体在800nm附近存在很强的吸收,适合于LD泵汪,为光光谱表明Nd:GdYCOB晶体是一种很有潜力的RGB(red,green,blue)激光自倍频晶体,掺杂4%,5% Nd:GdYCOB晶体的荧光寿命分别为105us和100us。 相似文献
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YCOB晶体生长与激光倍频性能研究 总被引:2,自引:0,他引:2
坩埚下降法沿<010>和<001>方向生长了直径达到25mm的完整透明的Ca4YO(BO3)3 (YCOB)晶体.化学腐蚀结果表明,所生长晶体无孪晶或亚晶界等缺陷,晶体尾部的位错密度 不超过1800/cm2测量了YCOB的透射光谱,其截止波长为200nm进行了YCOB晶体对 Nd:YAG激光的二次倍频实验.通过与KDP晶体对比,计算出YCOB晶体的有效非线性系数 在Ⅰ型相位匹配方向(θ,φ)=(66.3°,143.5°)和(65.9°,36.5°)上分别为1.45pm/V和0.91pm/V; 大于KDP和 LBO晶体.在脉冲宽度10ns的 Nd:YAG激光单脉冲辐射下YCOB晶体出现体 损伤的激光损伤阈值不低于85GW/cm2. 相似文献
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随着半导体二极管激光泵浦技术的发展,掺钕锗酸铋(Bi4Ge3O(12))晶体重新成为一种引人注目的激光材料.本文给出Nd:BGQ在800nm附近的光吸收和激发谱,以及106μm波段的受激发射性能.并首次测得它在1.06μm处室温Verdet常数为0.033’/cm·Gs.比FR-4磁光玻璃高27%,这意味着,Nd:BGO已成为目前唯一的激光/磁光复合功能材料.本文讨论了Nd:BGO中各类缺陷的形成机制及消除办法,通过改进工艺参数,生长出光学性质优良、Nd2O3掺入量达到1.5Wt%的晶体.利用其自身的磁光效应,研制成二极管激光泵浦、自调QNd:BGO激光器,获得100ns的稳定脉冲输出. 相似文献
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加入敏化离子C_r~(3+)的RE:YAG晶体中能量转移 总被引:1,自引:0,他引:1
测量了Cr3+和RE3+(Tm3+,Ho3+,Nd3+)共掺的YAG晶体的吸收谱、荧光谱和Cr3+的荧光衰减曲线.计算了Cr3+向RE3+能量转移的效率和速率.它是依Ho3+、Nd3+,Tm3+递增的,提出比较能量转移效率大小的简便方法. 相似文献
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研究了用固相法制备的高密度发光材料γ-Bi2WO6:Pr3+的结构、光致发光光谱、激发谱和γ-Bi2WO6的漫反射谱.由实验测得它的晶格参数为α=5.45A,b=16.42A,c=5.43A,密度Dx=9.53g/cm3.它的光致发光光谱主发射峰位于600、608、611、629nm,分别来自于Pr3+的1D2→3H4、2Po→3H6、3Po→3H6、3Po→3F2跃迁的发射.其激发谱由位于约225~430nm范围内、最大值约在372nm的主激发带和450nm的激发峰组成;主激发带来自于基质,可能是基质的带间吸收、W-O间电荷迁移吸收和缺陷能级的吸收;450nm的激发峰来自于 Pr3+的3H4→3P2跃迁吸收.BWO:Pr3+的最佳掺杂浓度为 0.8mol%左右. 相似文献
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Gd(x)Y(1-x)Ca4O(BO3)3 (GdYCOB) is a promising nonlinear optical crystal that shows high effective nonlinearity d(eff), noncritical phase matching, and high chemical stability. We report on the fabrication and characteristics of a monolithic wavelength converter, which generates ultraviolet light by the incidence of a 1.064 microm near-infrared laser. The converter consists of GdYCOB for third-harmonic generation, KTiOPO4 (KTP) for second-harmonic generation, and a wave plate. GdYCOB has the advantage of an extremely wide angular acceptance bandwidth, whereas KTP exhibits a high effective nonlinear coefficient and a broad temperature bandwidth. Consequently the combination of these crystals results in highly efficient and stable ultraviolet conversion for constructing a compact and robust ultraviolet laser. 相似文献
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Brenier A 《Applied optics》2004,43(32):6007-6010
Idler generation from self-difference frequency mixing of the pump wave near 750 nm and the 1062-nm Nd3+ laser emission in the bifunctional laser and nonlinear optical YAl3(BO3)4:Nd3+ crystal was shown. The efficiency was 0.37%, and the infrared wavelength was tunable in the 2430-2600-nm range. New Sellmeier formulas that predict phase-matching polar angles for frequency conversion processes involving wavelengths up to 2600 nm were established. 相似文献
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We report distinct laser performance of Yb:GdCa(4)O(BO(3))(3) crystals cut along different principal optical axes using an unpolarized diode pump. The continuous-wave (cw) laser oscillation generated with y-cut crystal is polarized either with E parallel x or with E parallel z depending on the output coupling (T) utilized; a specific T=3% leads to a special situation in which the two orthogonal polarization states coexist oscillating at different wavelengths. The laser oscillation achieved with x- and z-cut crystals is also polarized, but with a fixed polarization of E parallel z and E parallel x, respectively. The most efficient laser operation is obtained with the y-cut crystal, generating a cw output power of 7.35 W at 1083-1085 nm with an optical-to-optical efficiency of 63%, the slope efficiency being as high as 84%. 相似文献
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Nd3+:Y0.5Gd0.5VO4晶体生长和基本特性 总被引:5,自引:0,他引:5
Nd^3 :Y0.5Gd0.5VO4晶体作为一种新的激光材料,可以用中频感应加热提拉法生长。X射线粉末衍射分析表明它的结构与Nd^3 :YVO4晶体结构相同,它的晶格常数介于YVO4和NdVO4晶格常数之间。用ICP光谱法测定晶体中Nd^3 含量为0.8at%,分凝系数为0.8,与Nd^3 :GdVO4晶体中Nd^3 的分凝系数0.78相当;用称重法测定其密度为5.00g/cm^3;用稳态纵向热流法测出其室温热导率为12.5W/mK。实验表明Nd^3 :Y0.5Gd0.5VO4晶体有希望作为高功率ID泵浦激光晶体材料。 相似文献
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研究了Ti4+离子对PbZrO3和Pb(Zr1-xTix)O3粉体晶格结构的影响。利用固相反应法合成的PbZrO3和Pb(Zr0.95Ti0.05)O3粉体,从XRD、晶格常数和Raman光谱3个方面进行了分析。结果表明:PbZrO3和Pb(Zr0.95Ti0.05)O3均为钙钛矿结构,但较之PbZrO3,Pb(Zr0.95Ti0.05)O3的XRD谱各个峰位均向高角度轻微偏移;晶胞参数变小;Pb(Zr0.95Ti0.05)O3的Raman峰除在低频区向低频方向发生了偏移,而其余峰均向高频方向发生了偏移且部分峰有宽化现象。主要是由于Ti4+离子部分取代Zr4+离子进入PbZrO3晶格而形成Pb(Zr1-xTix)结构。 相似文献