All-Solid-State Nd:YAG Laser Operating at 1064nm and 1319nm under 885nm Thermally Boosted Pumping

We report a high-effciency Nd：YAG laser operating at 1064 nm and 1319nm, respectively, thermally boosted pumped by an all-solid-state Q-switched Ti：sapphire laser at 885 nm. The maximum outputs of 825.4 m W and 459.4mW, at 1064nm and 1319nm respectively, are obtained in a 8-ram-thick 1.1 at.% Nd：YAG crystal with 2.1 W of incident pump power at 885nm, leading to a high slope efficiency with respect to the absorbed pump power of 68.5% and 42.0%. Comparative results obtained by the traditional pumping at 808nm are presented, showing that the slope efficiency and the threshold with respect to the absorbed pump power at 1064nm under the 885nm pumping are 12.2% higher and 7.3% lower than those of 808rim pumping. At 1319nm, the slope efficiency and the threshold with respect to the absorbed pump power under 885nm pumping are 9.9% higher and 3.5% lower than those of 808 nm pumping. The heat generation operating at 1064 nm and 1319 nm is reduced by 19.8% and 11.1%, respectively.     

Effect of Poly（Ether Urethane） Introduction on the Performance of Polymer Electrolyte for All-Solid-State Dye-Sensitized Solar Cells

The introduction of poly（ether urethane） （PEUR） into polymer electrolyte based on poly（ethylene oxide）, LiI and I2, has significantly increased the ionic conductivity by nearly two orders of magnitudes. An increment of I3- diffusion coefficient is also observed. All-solid-state dye-sensitized solar cells are constructed using the polymer electrolytes. It was found that PEUR incorporation has a beneficial effect on the enhancement of open circuit voltage VOC by shifting the band edge of TiO2 to a negative value. Scanning
electron microscope images indicate the perfect interfacial contact between the TiO2 electrode and the blend electrolyte.     

浅谈全固态中波发射机的检修与维护

全固态中波广播发射机已经替代了电子管发射机。本为简要介绍了全固态中波广播发射机的检修和维护方法,提出了一些常见故障的检修部位,对从事广播电视的技术人员具有参考价值和借鉴意义。     

多波长半导体激光阵列端泵Nd:YAG脉冲激光器

研制了无温控多波长激光二极管阵列端面泵浦Nd：YAG电光调Q激光器。采用4 000 W多波长准连续激光二极管阵列作为泵浦源,快轴准直镜与透镜导管作为泵浦耦合系统,端面泵浦φ6 mm×60 mm的Nd：YAG晶体,并采用RTP晶体进行电光调Q实验。在重复频率5 Hz、室温（25℃）时,激光器获得了最大输出能量74.4 mJ、脉宽15 ns的1 064 nm脉冲激光输出,光光转换效率达到11%。在25~55℃的工作温度下,对多波长LDA的光谱特征与激光器的输出特性作了测试,激光器输出能量随着工作温度的上升而先迅速下降再逐步保持稳定,当重复频率分别为5 Hz和10 Hz时,激光器对应的最低输出能量分别为48 mJ与37 mJ。     

LiNbO3负极薄膜电化学性能及全固态薄膜锂离子电池应用

全固态薄膜锂离子电池具有易微型化与集成化等优点,因此,非常适合为微系统供电。负极对全固态薄膜锂离子电池的性能有重要影响。现有电池通常采用金属锂作为负极,然而其枝晶生长问题及低的热稳定性限制了相应电池在工业、军事等高温、高安全场合应用。为此,本文系统研究了LiNbO₃薄膜的电化学性能,结果表明:LiNbO₃薄膜呈现高比容量(410.2 mAh·g^-1)、高倍率(30C时比容量80.9 mAh·g^-1)和长循环性能(2000圈循环后的容量保持率为100%),以及高的室温离子电导率(4.5×10^-8 S·cm^-1)。在此基础上,基于LiNbO3薄膜构建出全固态薄膜锂离子电池Pt|NCM523|LiPON|LiNbO₃|Pt,其展现出较高的面容量(16.3μAh·cm^-2)、良好的倍率(30μA·cm^-2下比容量1.9μAh·cm^-2)及长循环稳定性(300圈循环后的容量保持率...     

全固态薄膜锂离子二次电池的研究进展

本文综述了全固态薄膜锂离子二次电池的研究进展,主要阐述了薄膜锂电池的结构设计以及正极、负极和固体电解质材料研究现状,并对其今后的发展趋势及研发热点进行了展望。     

PLD法制备LiCoO2薄膜的研究

采用脉冲激光沉积薄膜技术(PLD)制备了LiCoO2薄膜,研究了氧压、衬底、靶与底衬的距离对LiCoO2薄膜结构、化学组成的影响.     

全固态单纵模脉冲Nd:YVO_4环形激光器

设计并研制了全固态调Q脉冲单纵模Nd:YVO4环形激光器。利用880nm激光二极管端面抽运Nd:YVO4晶体,通过四镜环形谐振腔中插入声光调Q晶体、标准具,并优化激光谐振腔的结构,获得了重复频率为200Hz、脉宽为26.6ns的单纵模脉冲1.064μm激光输出。当泵浦功率为15 W时,单纵模激光输出的单脉冲能量为570μJ、脉冲能量稳定性优于3%。     

半导体泵浦全固态激光测距仪的研制

为适应工程小型化平台需要,研制了一种半导体泵浦全固态激光测距仪。采取半导体泵浦方式,激光谐振腔设计为平平腔,采用金属热沉冷却与半导体制冷相结合,研制出的激光测距仪工作频率可达20Hz,测程大于20km,测距精度可达±1.5m。经过试验验证,性能稳定,指标可靠。     

高效率LD端面抽运准连续355nm激光器

报道了一台激光二极管(LD)端面抽运Nd∶YVO4晶体腔内倍频和腔外和频相结合的声光调Q准连续355 nm紫外激光器。采用LD端面抽运双侧翼键合YVO4基质的Nd∶YVO4晶体,在腔内置入Ⅰ类相位匹配的LiB3O5(LBO)晶体进行倍频实现1 064 nm和532 nm双波长准连续激光输出,通过消色差透镜将双波长激光聚焦耦合到Ⅱ类相位匹配的LBO晶体中进行和频,并采用双向和频光路,获得了高效率、高光束质量、高重复频率的准连续355 nm紫外激光输出。在抽运功率为28.6 W、重复频率为20 kHz时,355 nm激光最大输出功率4.2 W,脉宽为20.6 ns,光-光转换效率为14.7%,激光器光束质量因子Mx2和My2分别为1.29和1.23。