LDA端泵浦短腔Cr^4＋：YAG被动调Q Nd：YAG激光器

采用峰值功率600W的准连续（QCW）激光二极管阵列（LDA）端泵浦Nd:YAG晶体，其耦合装置为自制的微柱透镜阵列和透镜导管，使用Cr^4 :YAG可饱和吸收晶体作为Q开关，并选取长度较短的Nd:YAG晶体，从而使激光腔的长度缩短到11mm，实验研究了在较短的腔长条件下调Q输出多脉波形的时间、空间分布，采用平－平腔结构时，每次泵浦脉冲获得单脉冲输出，脉冲宽度＜4ns，能量4．5mJ。     

LDA侧面泵浦1319nm/1338nm双波长激光器的研究

使用最大泵浦功率为600 W的LDA侧面泵浦组件,并采用布儒斯特偏振片以及同时优化全反镜和输出镜透过率两种方法,获得了功率基本相等的1319 nm/1338 nm双波长激光输出。在连续输出时,获得30 W的输出功率,利用声-光Q开关调Q输出,在重复频率为4 kHz时,单脉冲能量为6 mJ,脉冲宽度为237 ns,峰值功率为25 kW。     

LD侧泵激光器抽运光和温度分布数值研究

基于光线追迹法和有限差分法,计算了不同参数下光LD侧面抽运激光棒时吸收的功率和温度分布。模拟计算结果表明不同的抽运头结构对抽运光功率和温度分布有重要影响。随着抽运方向的增多,抽运光功率和温度分布越来越对称。介绍了一些提高抽运光和温度分布均匀性的方法。研究了激光棒横截面内的温度与热传导系数的关系,该温度随热传导系数的增大非线性减小,在一定的抽运功率条件下,热传导系数存在着一个最佳值。     

LD泵浦准连续Nd:YAG/KTP 12 W红光激光器

报道了使用国产大功率全固态NdYAG泵浦组件产生1.3 μm附近波长的激光振荡,利用Ⅱ类临界相位匹配的KTP晶体腔内倍频产生高功率的红光激光输出.泵浦组件内包含30个20 W的808 nm二极管阵列,呈三角型阵列分布连续抽运5 mm×125 mm的NdYAG圆棒.为产生高功率的倍频输出,激光器采用V型折叠腔结构,并使用1个声光Q开关.在泵浦功率大约470 W时,产生了12 W的准连续高功率红光激光.     

Terahertz generation based on four-wave mixing difference frequency by resonance-enhanced third-order nonlinear of media

Using nanosecond pulse near-infrared and mid-infrared laser pulses as the pump source, we obtain terahertz wave sources via four-wave difference frequency mixing. From the coupled wave theory, we analyze the four-wave mixing process of GaSe crystal and alkali metal vapor in detail, get the analytical expression of terahertz wave output power, and discuss the conditions for achieving phase matching. By adjusting the pump frequency, the third-order nonlinear polarization of alkali metal vapor is r...     

填充混合液体的光子晶体光纤温度传感研究

为获得高灵敏度光子晶体光纤温度传感,在实心光子晶体光纤（PCF）空气孔中填充氯仿和酒精等高折射率热敏液体的混合物。理论上采用有限元法分析了温度对光纤模场面积和限制损耗的影响。通过调节液体的混合比,使损耗对温度的灵敏度达到最大值,实现了高灵敏度PCF温度传感。实验表明,填充液体的长为4mm的PCF温度传感器,灵敏度经检测...     

880nm共振抽运连续波内腔单谐振光学参量振荡器及其逆转换

报道了880nm激光二极管(LD)共振抽运的连续波(CW)Nd:YVO4-PPLN内腔单谐振光学参量振荡器(ICSRO)。在21.9W抽运功率下,获得了1.54W的3.66μm CW中红外闲频光输出,光-光转换效率为7.0%;与808nm传统抽运相比,共振抽运ICSRO在振荡阈值、输出功率、转换效率和功率稳定性等方面都显示出明显优势。针对高抽运功率下逆转换过程影响单谐振光学参量振荡器(SRO)转换效率的问题,研究了振荡信号光的耦合输出透射率对SRO阈值和下转换效率的影响。通过提高振荡光输出镜透射率优化SRO阈值,可在高抽运功率下保持下转换效率的同时获得高效的信号光输出;21.4W抽运功率下同时获得1.54W闲频光和5.03W信号光输出,总提取效率为30.2%。     

Thermal distribution analysis of multi-core photonic crystal fiber laser

The thermal properties of photonic crystal fiber(PCF) laser with 18 circularly distributed cores are investigated by using full-vector finite element method(FEM).The results show that the 18-core PCF has a more effective thermal dispersion construction compared with the single core PCF and 19-core PCF.In addition,the temperature distribution of 18-core PCF laser with different thermal loads is simulated.The results show that the core temperature approaches the fiber drawing value of 1800 K approximately when the thermal load is above 80 W/m which corresponds to the pumping power of 600 W approximately,while the coating temperature approaches the damage value of about 550 K when the thermal load is above 15 W/m which corresponds to the pumping power of 110 W approximately.Therefore the fiber cooling is necessary to achieve power scaling.Compared with other different cooling systems,the copper cooling scheme is found to be an effective method to reduce the thermal effects.     

Research on the transverse mode competition in a Yb-doped 18-core photonic crystal fiber laser

A model based on propagation rate equations is built up for analyzing the multicore transverse mode gain distribution in an 18-core photonic crystal fiber(PCF)laser.The two kinds of feedback cavities are used for the fiber laser,which are the butt-contact mirror and the Talbot cavity.According to the model,the transverse mode competitions in different feedback cavities are simulated numerically.The results show that the Talbot cavity can improve in-phase supermode gain,while suppress other supermodes.     

LD侧面抽运Nd:YAG/KTP连续波1.8 W 659.5 nm激光器

报道了用Ⅱ类相位匹配KTP(相位匹配角选为θ＝59.8°,Φ＝0°)对NdYAG腔内倍频,产生高功率连续659.5 nm红光激光的实验结果.采用808 nm最大输出功率为600 W的国产大功率LD侧面泵浦组件,采用镜片镀选择性膜的方法使NdYAG工作在1 319 nm单一波长.为获得高功率的倍频红光设计了Z型折叠腔腔型,并将KTP的冷却温度降低到7 ℃的较低温度以补偿KTP的热效应,最终在抽运功率317 W时获得1.8 W的连续波659.5 nm红光激光输出.