Er∶Yb∶KGW激光晶体生长及缺陷研究

采用顶部籽晶(TSSG)法生长Er:Yb:KGW晶体.通过研究助熔剂的种类、组成与溶质的比例关系对晶体生长的影响,设计了合理的工艺条件:转速:30～40 r·min-1;拉速:1～2 mm·d-1;降温生长速率:0.05 ℃·h-1;降温速率:15 ℃·h-1;生长周期:15～20 d.通过对晶体缺陷的观察分析认为,晶体裂缝及包裹物等缺陷与生长工艺条件密切相关,应尽量减少生长过程中的温度、浓度及生长速度的波动,保持晶体的稳态生长.

熔盐提拉法生长大尺寸KGW晶体及其拉曼特性研究

β-KGd(WO_4)_2(简称KGW)晶体是一种兼具激光基质和拉曼性能的优秀材料,受到了广泛的关注和研究。采用熔盐提拉法生长了尺寸>60 mm、质量>800 g的KGW晶体,光学均匀性为1.34×10^(-5)。在生长的晶体中,观察到了包裹体聚集层、空洞和开裂等较大尺寸缺陷,并探讨了原因。初步的激光实验实现了1151.3 nm拉曼激光输出,功率80 mW,拉曼频移为898.2 cm^(-1)。

Luminescence Properties and Crystal Growth of Er/Yb Codoped KGd(WO_4)_2

In this paper, the spectral and luminescence properties of a series of KGd（WO4）2 powder samples codoped with different concentrations of Er^3＋ and Yb^3＋ were reported,and the best doping concentrations were found to be lat% Er^3＋ and 10at% Yb^3＋ for attaining the strongest intensity. The Er^3＋/yb^3＋ codoped KGd（WO4）2 crystal with good optical quality was grown by the TSSG method and the growth conditions were presented. The unpolarized absorption and emission spectra of the crystal have been measured. The strong absorption peak is at 980 nm with a FWHM of 65 nm, and the emission peak is at 1536 nm when pumped by 976 rim. The fluorescence lifetime of manifold ^4I13/2 is estimated to be 4.5 ms at room temperature.Investigations of Er, Yb：KGW crystal have shown it to have necessary combination of properties to get an effective generation of - 1.54 μm eye-safe radiation with laser diode pumping.

Yb∶KGW激光晶体原料制备与单晶生长

Yb∶KGW晶体在可调谐微片激光器中有重要的应用价值。本文研究了Yb∶KGW多晶粉料的合成温度及烧结时间 ,确定在 90 0℃经 1 2h烧结合成Yb∶KGW多晶粉料。通过对K2 WO4和K2 W2 O7两种助溶剂性能及生长温度曲线的对比分析 ,选择K2 W2 O7作助溶剂 ,设计合理的工艺参数 ,采用熔盐法生长了新型的稀土激光晶体Yb∶KGW。对晶体粉末进行XRD图谱测试 ,判定所生长的晶体为 β Yb∶KGW ,经TG DTA分析 ,确定其熔点为 1 0 86℃ ,相变温度为1 0 2 1℃。

Crystal Growth and Laser Characteristics of Nd^(3+)∶KGd(WO_4)_2

The Nd^3＋ 3.2% （atom fraction）：KGd（WO4）2 crystal was grown by Kyropoulos method. The absorption spectrum and fluorescence spectrum of Nd^3 ＋ ： KGW crystal were measured. The absorption cross sections at 808 nm（0. 6799 × 10^-20 cm^2） were calculated, and the output wavelength of fluorescence is 1064 and 1351 nm. The diode-pumped laser was operated both in the free-running and passively Q-switched operating modes. The maximum laser output（1064 nm） is 326 mW with 62.7 % slope efficiency when input energy is 900 mW. The beam quality factor M^2 ≈ 1.1. The green light of 532 nm is obtained in frequency doubling operation. The laser is passively Q-switched by using Cr^4＋ ：LuAG as saturable absorber. The pulse width is 170 ns at repetitive frequency of 15 kHZ.

KGW晶体的1.06μm激光特性研究

In recent years,from the laser experimental study of neodymium doped potassium g adolinium tungstate,i.e.KGd(WO 4) 2 (KGW),laser scientific workers had discove r ed that it has many advantages,as compared to YAG and other tungstate crystals u n der indentical experimental conditions,such as low lasing threshold,high output energy o r power and high efficiency et al.Especially,as seen on the absorption spectra o f Nd:YAG and Nd:KGW reported by V.Kushawaha et al,a strong and broad absorption line around 808nm is much wider (～12nmFWHM) in Nd:KGW as compared to the Nd:YAG (～1.5nm FWHM),and this wavelength is just during the main peak area emitted by diode laser,so that Nd:KGW may be a excellent candidate for efficient diode pum ping at 808nm.Therefore the research and development of KGW crystals and laser d evices has been bestowed great attention in interational laser science area.For the laser rod with dimensions of  5mm×8mm and  6.3mm×75mm,the xenon flashlamp pumping KGW laser have achieved more laser output and higher efficie n ies than the YAG crystals under identical experimental conditions,by V.Kushawaha et al.In Unite State and K.A.Stankov et al.in Germang respectively.

LD端面抽运Nd∶KGW激光器热效应的理论与实验研究

对LD端面泵浦Nd∶KGW激光器的热效应进行了分析.求解热传导方程得出了Nd∶KGW晶体的温度分布和端面形变,进而计算出了热焦距随泵浦功率的变化曲线,并通过实验对其正确性进行了验证.采用凹-平腔,在不同透过率的输出镜下,对Nd∶KGW晶体的1 064 nm连续激光输出特性进行了研究.

Yb：KGW激光晶体无热方向的计算与分析

针对各向异性Yb∶KGW激光晶体有可能存在热透镜效应为零的传播方向(即无热方向),利用Biswal等人2篇文献和Pujol等人对Yb∶KGW晶体热膨胀系数的测量结果,分别采用最小二乘法和二阶张量旋转计算出对应晶体的热膨胀张量,据此计算出2篇文献中所述晶体的无热方向。通过对比分析发现:尽管晶体热膨胀张量存在一定的个体差异,但是该晶体普遍只存在2个无热方向,即当光为m偏振时,在p-g平面内与p轴成正负二十多度的2个方向,而不是Biswal等人给出的4个无热方向。另外,利用得到的热膨胀张量计算出某特定方向的热光特性与瑞典的Hellstrom等人报道的激光器热透镜实验结果相一致。

LD端面泵浦Nd：KGW激光器热效应的理论研究

通过建立晶体的热传导模型,合理设定边界条件和求解泊松方程,得到了晶体内部的温度分布图。进而计算了Nd:KGW晶体由端面形变引起的光程差和总的光程差,同时得到了不同抽运功率下的热焦距。计算结果表明,Nd:KGW晶体的热效应十分严重,晶体的端面形变是导致热透镜效应的主要因素。

皮秒多脉冲泵浦KGW红外多波长拉曼激光器

报道了多脉冲机制泵浦KGW晶体的皮秒红外多波长拉曼激光器。建立数学模型研究了多脉冲泵浦机制对拉曼活性分子振动模式的影响,模拟结果显示了拉曼活性分子对多脉冲泵浦机制的响应相比于传统的单脉冲泵浦机制更加活跃与持久,从而促进衰减的分子振荡多次回到本征振动频率。多脉冲的增强效果有利于改善拉曼增益,降低拉曼阈值,提高拉曼转换效率。设计了皮秒多脉冲泵浦KGW拉曼晶体实验,结果表明,三脉冲泵浦机制将拉曼增益改善了2倍以上,拉曼阈值降低了50%以上,768 cm^-1和901 cm^-1拉曼模式的转换效率分别提高了16%和22%以上。基于三脉冲泵浦机制,设计了1 kHz毫焦级皮秒多脉冲泵浦KGW晶体红外多波长拉曼激光器,对于768 cm^-1和901 cm^-1两个振动模式,获得脉冲能量分别为1.39 mJ和1.38 mJ,最大拉曼转换效率分别为29.6%和25.7%。此外,对于两种拉曼模式,此拉曼激光器都可以同时输出多达8条红外拉曼光谱,涵盖范围800~1700 nm。

kgw晶体外腔式高功率579nm喇曼黄光激光器

报道了579nm高功率KGd(WO4)2喇曼晶体外腔式喇曼黄光激光器的输出特性.基于808nm脉冲激光二极管侧面泵浦Nd∶YAG陶瓷、腔内BBO电光晶体同步延迟调Q和Ⅰ类临界相位匹配的LBO晶体腔外倍频方案,并通过外腔式KGW晶体Ng轴二阶斯托克斯喇曼频移,获得了579.54nm黄光激光输出.当脉冲信号重复频率为1kHz、532nm泵浦光最高平均功率为5.02W、脉冲宽度为10.1ns时,获得了最高平均功率2.58 W、脉冲宽度7.4ns、峰值功率348.6kW的579.54nm二阶斯托克斯喇曼黄光激光输出;532nm至579.54nm的光-光转化效率为51.4%、斜率效率为54.8%,光束质量因子Mx2-579.54=5.829、My2-579.54=6.336,输出功率不稳定性小于±2.35%.实验表明:外腔式喇曼结构能够高效地获得喇曼黄光,具有很高的光-光转化效率及良好的功率稳定性,并通过脉冲LD结合同步延迟电光调Q可获得高重复频率、高平均功率、窄脉冲宽度和高峰值功率的黄光激光输出.

A continuous-wave Nd:YVO_(4)-KGW intracavity Raman laser with over 34% diode-to-Stokes optical efficiency

We demonstrate a continuous-wave(CW)Nd:YVO_(4)-potassium gadolinium tungstate(KGW)intracavity Raman laser with a diode-to-Stokes optical efficiency of 34.2%.By optimizing the cavity arrangement and reducing the cavity losses,8.47 W Stokes output at 1177 nm was obtained under an incident 878.6 nm diode pump power of 24.8 W.The influence of cavity losses on the power and efficiency of the CW Raman laser,as well as the potential for further optimization,was investigated based on the numerical model.The observation of thermally-induced output rollover was well explained by the calculation of the thermal lensing and cavity stability,indicating that the end-face curvature played an important role when the end-face of the crystal was highly reflective coated to make the cavity.A 10.9 W Stokes output under 40.9 W incident pump was also demonstrated with a cavity arrangement less sensitive to the end-face curvature,which is the highest output power of CW intracavity Raman lasers reported.

基于侧面热对流的LD泵浦Yb∶KGd(WO_4)_2热透镜效应研究

基于对LD端面泵浦Yb∶KGW激光晶体工作特点的分析,建立了符合条件的激光晶体热模型.考虑晶体侧面的热对流,运用MATLAB和FORTRAN软件,通过有限差分法求解各向异性介质热传导方程,得到了该晶体的温度场分布、端面热形变分布和不同泵浦功率下的热焦距.结果表明:在泵浦功率为14 W时,泵浦面最高温度达272.8℃、最大形变为0.48μm,光斑附近的热焦距为4.8 cm.

Ho^(3+),Yb^(3+)双掺KGd(WO_4)_2激光晶体的光谱性能

钨酸钆钾是一种新型的激光基质材料。以Yb3+作为Ho3+的敏化剂,采用顶部籽晶提拉法生长出了单斜晶系的Ho∶Yb∶KGW晶体。测试了晶体的红外光谱和拉曼光谱,并对出现的峰值进行了振动归属。分析了晶体的吸收光谱,计算了相应的光谱参数。从荧光光谱可以看出,在1022 nm附近,Yb3+发射主峰的发射线宽达14 nm,对应的是Yb3+的2F5/2和2F7/2的最低能态之间的跃迁;Ho3+在1985 nm处的荧光发射峰半高宽为45 nm左右,发射截面积为σemp=1.79×10-20cm2。测试了晶体的上转换荧光谱,得到了较强的上转换红光,并分析了相应的上转换机制。

Nd:KY(WO_4)_2、Nd:KG(WO_4)_2晶体光谱性能研究比较

在室温下测试了Nd:KYW(Nd:KY(WO4)2)、Nd:KGW(Nd:KG(WO4)2)晶体的吸收光谱,有相似性,这是由于结构相似。吸收峰位置稍有偏移,因为Nd3+离子进入晶体取代离子的半径不同,晶格对Nd3+跃迁影响大小不同。根据J-O理论计算的晶场强度参数反映了它们性质的炯异。同时测试的偏振吸收光谱,表明了明显的偏振性,不同的偏振有不同性质,同一偏振两晶体的性质存有差异。

掺钕KG(WO_4)_2和KY(WO_4)_2的荧光动力学分析

根据Judd-Ofelt理论及速率方程,计算出Nd^(3+):KY(WO_4)_2和Nd^(3+):KG(WO_4)_2晶体的相关光谱参数.结果表明:在同一偏振上Nd^(3+):KY(WO_4)_2的辐射寿命小于Nd^(3+):KG(WO_4)_2,Nd^(3+):KG(WO_4)_2晶体在π偏振上的辐射寿命高于σ偏振,Nd^(3+):KG(WO_4)_2晶体在π偏振上对LD泵浦更有利.

低频移拉曼模式多阶级联的1.7μm激光器

基于固体介质的拉曼频率变换是产生新波段激光的有效技术方案。利用1 572 nm KTP光参量振荡器腔内泵浦KGW晶体,实现了1 616 nm (2阶)、1 638 nm (3阶)、1 662 nm (4阶)、1 686 nm (5阶)、1 711 nm (6阶)拉曼激光输出,其中1 711 nm占据主导地位。激光器最大总平均输出功率为1.13 W,最小脉冲宽度为20 ns。该多阶级联拉曼变频对应的单阶平均拉曼频移为86 cm^(-1),与文献报道的KGW晶体低频拉曼模式相吻合。采用1 572 nm KTP光参量振荡器作为拉曼激光器的腔内泵浦源有两个优势,一方面可以有效拓展拉曼变频的输出波长,另一方面可以基于光参量振荡器的脉冲窄化特性为后续多阶拉曼转换提供高强度的泵浦光。通过引入多阶级联拉曼变频的方案,为有效利用固体介质非常规低频移拉曼模式提供了新思路。

闪光灯抽运的Nd∶KGW和Nd∶YAG激光器的性能比较

用重复频率 1Hz、脉冲宽度 12 0 μs的闪光灯侧面抽运 ,在相同的实验条件下 ,对比了Nd∶KGW晶体与Nd∶YAG晶体的激光性能。在自由运转时 ,分别获得 1 0 %和 0 44 %的斜率效率和 0 5 4J、0 .76J的外推阈值能量 ,获得的最大输出能量为 384mJ和 16 5mJ。调Q运转时 ,Nd∶KGW激光器与Nd∶YAG激光器的斜率效率分别是0 16 %和 0 0 7% ,阈值能量为 5 9J和 12 5J。

Diode-pumped 13 W Yb:KGW femtosecond laser

We report on a high-power diode-pumped Yb∶KG(WO_(4))_(2)(Yb:KGW) mode-locked laser with a semiconductor saturable absorber mirror(SESAM). For 32.7 W of incident pump power, we generate 261 fs pulses with the maximum average output power of up to 13.0 W and spectrum centered around 1039 nm at 68.4 MHz, corresponding to 190 n J of single pulse energy and0.72 MW of peak power. The optical-to-optical conversion efficiency is 39.8%, and the slope efficiency is 64.4%. The Yb:KGW laser exhibits a power stability better than 0.543% of the root-mean-square in 2 h.

Yb:KGW飞秒激光器研究进展

飞秒激光在强场激光物理、超快化学动力学、微结构材料科学和生命科学等不同领域有着广泛应用。Yb:KGW晶体以其优异的综合性能适于作为飞秒激光器的增益介质,因此研究Yb:KGW飞秒激光器具有重要意义。自2000年瑞士研制出世界第一台被动锁模Yb:KGW飞秒激光器以来,国内外多家机构开展了Yb:KGW飞秒激光器的研究。主要报道了国内外Yb:KGW飞秒激光器的最新进展。目前能实现的最短脉冲宽度是100fs,与理论值的47fs还有一定的差距。