Second-harmonic Generation in UV-pulsed Laser Poled Amorphous 80GeS_2-15Ga_2 S_3-5CdS Chalcogenide Film

With the pulsed laser deposition （PLD） method, amorphous 80GeS2-15Ga2S3-5CdS chalcogenide film was deposited on glassy substrate. Obvious second harmonic generation （SHG） was observed in the ultraviolet （UV）-polarized film and the SHG intensity increased with the increase in single pulse energy and irradiation time. Through Raman spectra and transmission spectra, the mechanism of SHG was studied. The experimental results demonstrated that effective electron traps and hole traps were generated in the UV- polarized film. The energy of electrons and holes was using up due to the collision with other particles and crystal fields during their movement and finally they were captured by the traps and fixed, which made the electric charge distribution nonuniform in the film and destroyed the spatial isotropy. In the meantime, the center of positive and negative charges separated and a built-in electric field was formed which generated the optical second-order nonlinearity of the film.

High efficiency continuous-wave tunable signal output of an intracavity singly resonant optical parametric oscillator based on periodically poled lithium niobate

In this paper we report on a continuous-wave （CW） intracavity singly resonant optical parametric oscillator （ICSRO） based on periodically poled LiNbO3 （PPLN） pumped by a diode-end-pumped CW Nd：YVO4 laser. Considering the thermal lens effects and diffraction loss, an optical ballast lens and a near-concentric cavity are adopted for better operation. Through varying the grating period and the temperature, the tunable signal output from 1406 nm to 1513 nm is obtained. At a PPLN grating period of 29 pm and a temperature of 413 K, a maximum signal output power of 820 mW at 1500 nm is achieved when the 808 nm pump power is 10.9 W, leading to an optical-to-optical conversion efficiency of 7.51%.

顾及杆状物和车道线的城市道路场景轻量化快速点云自动配准

针对激光扫描获取城市场景出现不同时期位置偏差,传统点云配准方法存在效率低和鲁棒性低等局限性,本文提出了顾及杆状物和车道线的点云配准改进方法。首先对滤波后的点云进行体素格网降采样,再利用布料模型滤波对地面点滤波,后使用K均值无监督分类非地面点云,后用先验的随机一致抽样法提取杆状物作为目标特征,并根据点云反射强度提出点云灰度图和空间密度分割法提取车道线。利用改进迭代最近点(ICP)算法和法向量约束,将杆状物作和车道线作为配准基元,几何一致算法剔除错误点对,并使用双向KD-tree快速对应特征点的关系,加快配准速度和提高精度。经实验证明,在低重叠度的城市点云场景耗时不到20 s,且只迭代20次,精度可达1.9877×10^(-5)m,可实现城市道路场景点云的高效准确配准。

Tunable femtosecond near-infrared source based on a Yb:LYSO-laser-pumped optical parametric oscillator

We demonstrate a widely tunable near-infrared source from 767 nm to 874 nm generated by the intracavity second harmonic generation （SHG） in an optical parametric oscillator pumped by a Yb：LYSO solid-state laser. The home-made Yb：LYSO oscillator centered at 1035 nm delivers an average power of 2 W and a pulse duration as short as 351 fs. TWo MgO doped periodically poled lithium niobates （MgO：PPLN） with grating periods of 28.5-31.5 μm in steps of 0.5 μm and 19.5-21.3μm in steps of 0.2 μm are used for the OPO and intracavity SHG, respectively. The maximum average output power of 180 mW at 798 nm was obtained and the output pulses have pulse duration of 313 fs at 792 nm if a sech2-pulse shape was assumed. In addition, tunable signal femtosecond pulses from 1428 nm to 1763 nm are also realized with the maximum average power of 355 mW at 1628 nm.

Theoretical analysis of periodically poled LiNbO_(3) nonlinear mirror and its application in a passively mode-locked Nd:YSAG laser

In this paper, we report a passively mode-locked Nd∶Y3Sc2Al3O12(Nd:YSAG) laser using a periodically poled Li Nb O3(PPLN)superlattice. Nonlinear mirror mode locking based on PPLN intracavity frequency doubling was theoretically analyzed. The modulation depth of nonlinear reflectivity of the nonlinear mirror is approximately 8.8%. Optical performances of the modelocked laser including output power, radio frequency spectrum, and optical spectrum were experimentally investigated. An average output power of 710 m W with a slope efficiency of 14.6% was obtained at the pump power of 6.5 W. The repetition rate is 101.7 MHz, and the signal-to-noise ratio of the mode-locked pulse is 45 d B. The mode-locked pulse width was approximately 9 ps.

Sodium guide star laser generation by single-pass frequency doubling in a periodically poled near-stoichiometric LiTaO_3 crystal

We report in this work a continuous wave(CW) narrowband 589 nm light generation for the purpose of laser guide assisted adaptive optics.A 39 mm long 1 mm thick periodically poled near stoichiometric LiTaO3 crystal with duty cycle near 50% was fabricated using electrical poling at room temperature and pumped by a Raman fiber amplifier.We tested two temperature control ovens,and a maximum conversion efficiency of about 14.3%,corresponding to 4 W of yellow light with 28 W of fundamental power,and bandwidth less than 0.18 GHz was achieved.

基于模块化设计的储能电池模组生产线

储能电池模组生产过程中存在焊接质量不稳定造成爆孔、虚焊等缺陷;离散型生产模式存在工序错乱、生产效率低等问题。为提升储能电池模组的生产效率和质量,设计一条模块化的储能电池模组装配测试生产线。该产线通过倍速链线体将电芯检测、模组压装、模组焊接、模组测试4个单元进行连接集成,实现从电芯到模组成品测试自动化流水线作业。采用模块化设计,4个单元模块既能集成自动化产线,又可以作为单元模块独自运行,避免个别异常导致整线停产的情况。极柱激光清洗、复合激光焊、负压除尘等关键技术的应用,可解决电芯焊接爆孔、虚焊等问题,产品合格率提升至99.88%以上;自动化流水线作业能解决人工搬运、工序错乱等痛点,提高生产效率。实际应用表明,所提产线的生产效率比单站模式提升了3倍,减少操作人员9人,有显著的经济效益。

Optical sampling system using periodically-poled lithium niobate waveguide and nonlinear polarization rotation mode-locked fiber laser

A novel design of optical sampling system has been developed by using sum-frequency generation （SFG） in a periodically-poled lithium niobate （PPLN） waveguide and using passive mode-locked fiber laser pulses as optical sampling pulses. The system achieved high temporal resolution and high sensitivity using a 30 mm length PPLN with quasi phase match period of 19.3 μm and 151 fs sampling pulses which were generated by passive modelock fiber laser based on nonlinear polarization rotation （NPR）. Clear eye-diagram of 10 Gbit/s non-return-to-zeros （NRZ） pseudorandom binary sequence （PRBS） optical signal were successfully reconstructed by this system.

输尿管软镜下钬激光治疗不同大小肾下盏结石的比较分析

目的对比输尿管软镜下钬激光治疗不同大小肾下盏结石的效果。方法 2011年8月-2015年4月选择在该院进行诊治的肾下盏结石140例,其中最大结石直径>2.0 cm的有40例(观察组),最大结石直径≤2.0 cm的有100例(对照组),所有患者都给予输尿管软镜下钬激光治疗,观察与比较预后情况。结果观察组术后3天和1个月的碎石成功率为80.0%和97.5%,对照组为95.0%和98.0%,观察组术后3天的碎石成功率明显低于对照组(P<0.05)。观察组的手术时间与术后住院时间明显高于对照组(P<0.05)。观察组术后1个月的肺部感染、血尿和尿外渗等并发症发生情况明显高于对照组(P<0.05)。观察组术后3天的血肌酐含量明显高于术前(P<0.05),且明显高于对照组(P<0.05),两组其他时间点的血肌酐含量对比差异均无统计学意义(P>0.05)。结论相对于小型肾下盏结石,输尿管软镜下钬激光治疗大型肾下盏结石的碎石成功率有所下降,对于患者也有一定的创伤,肾功能状况也有所波动,术后并发症也比较多,在临床上要慎重选择。

基于点云数据的采空区三维建模算法

为有效实施对采空区的控制和安全管理,需要准确掌握矿山采空区的体积、空间三维形态和实际边界。通过三维激光扫描技术可获取采空区表面点云数据,结合矿山采空区自身空间几何特点,提出伪极点-Crust建模算法。其基本思路为:在三维Delaunay三角剖分的基础上,给出伪极点的概念,以伪极点代替传统Crust算法中的极点,减小数据存储量;同时结合奇异四面体判别准则,确保采空区模型的准确性;通过使用模型内外检测算法和伪极点-Crust图抽取算法,建立采空区三维模型。用VC++实现该算法,对安徽铜陵冬瓜山铜矿采空区建模进行试验。研究结果表明:采用该算法建模快速,结果准确;该算法同样适用于实测巷道建模、采场验收、计算机几何造型、逆向工程和虚拟现实技术等。

GCr15纺锭杆激光淬火工艺研究

本文通过对材料为GCr15的纺锭杆进行激光淬火工艺研究以提高纺锭杆的耐磨性。提出了用三点淬火法来对纺锭杆的前端进行激光淬火,这种方法改善了纺锭杆工作时的润滑条件。通过实验分析得出了GCr15材料最佳的激光淬火工艺参数,以保证纺锭杆前段能够达到最高的硬度。并针对较高淬火温度下,表面硬度下降现象进行了试样的金相分析,找出了产生这种现象的原因。

工程测量中高精度对中杆设计研究

由于实时动态差分法测量(Real Time Kinematic,简称RTK)和全站仪在控制测量、地形图测量、变形监测及施工放样中的使用越来越广泛。为掌握RTK和全站仪在上述应用期间由于对中杆本身高度测量不准确而造成测量精度的降低,进而影响到整体工程质量。以工程测量为背景,基于激光测距仪量测原理,通过采用"激光测距仪+精度放大装置+显示屏幕"的集成技术设计思想,设计出了一种高效的便于精确测量高度的对中杆。结果表明:采用优化设计后的集成化对中杆进行高度量测,在闭合导线环和附合导线环中,可有效提高25%测量精度,而所用时间与传统不用高效对中杆时所用时间几乎相同。由此可见,在测量时间不变的情况下,采用高效集成化对中杆可以有效提高量测精度的同时提高了测量效率,达到进一步提高工程整体质量的目的。

基于MgO∶PPLN晶体差频产生的宽调谐中红外连续激光光源

分别以1 083nm和1 550nm波段的窄线宽连续光源为泵浦光和信号光,搭建基于掺MgO周期铌酸锂晶体（MgO∶PPLN）准相位匹配原理的差频非线性效应产生中红外激光实验系统.根据系统温度和信号光波长调谐特性进行实验研究.在泵浦光波长固定条件下改变信号光波长,实现了窄线宽宽调谐中红外连续闲频激光输出,波长覆盖范围为3 547.6~3 629.1nm.当波长为1 082.8nm的泵浦光和波长为1 549.7nm的信号光功率分别放大到2.8 W和3.5 W时,对波长为3 597.0nm的中红外闲频光输出进行长时间功率扫描监测,得到最大功率为3.2mW,功率抖动引起不稳定度小于±1.6%的高稳定的中红外窄线宽激光输出.该研究结果可为设计和研制多波长窄线宽中红外光源提供参考.

输尿管软镜钬激光碎石术治疗肾下盏结石临床分析

目的:评估输尿管软镜钬激光碎石术治疗肾下盏结石的效果及并发症。方法:2015年1月~2017年3月93例肾下盏结石患者行输尿管软镜钬激光碎石治疗。术后第1天行KUB检查评估残留结石及双J管位置,术后第3天拔除尿管无特殊即可出院。术后2周拔除体内双J管,1个月后复查KUB了解结石排出情况并统计清石率。结果:93例患者均顺利完成手术,结石大小为8~25 mm,平均(14.6±4.5)mm;手术时间50~140min,平均(91.2±25.1)min;术后住院时间3~10d,平均(3.9±1.0)d。一期手术总清石率79.5%(74/93),其中结石直径<20 mm组71例(76.3%),清石率为87.3%(62/71);结石直径≥20mm组22例(23.7%),清石率为54.5%(12/22),两组清石率比较差异有统计学意义(χ~2=11.101,P=0.001)。肾盂下盏漏斗夹角(IPA)>30°共62例,清石率88.7%(55/62);IPA≤30°时31例,清石率61.2%(19/31),两组之间比较差异有统计学意义(χ~2=9.556,P=0.002)。术后7例患者出现发热38.5℃以上,经加强抗感染后均顺利出院,未见其他严重并发症。结论:输尿管软镜钬激光碎石术治疗肾下盏结石疗效确切,并发症少,可以作为一些选择性患者治疗肾下盏结石的主要方法,但结石直径、IPA大小可显著影响清石率。

周期极化掺镁铌酸锂晶体光参变产生研究

为了获得1.5μm波段可调谐红外光输出,采用短脉冲电场极化法,在1mm厚的掺镁(摩尔分数为0.05)铌酸锂晶体上成功制备了周期为29μm的极化光栅。利用声光调QNd∶YVO4固体激光器直接抽运PPMgLN晶体,开展了OPG光学转换研究工作。在输入3W的抽运光时,得到信号光输出功率为44mW,转换效率1.5%。并通过调谐晶体温度(45℃~160℃),获得了调谐范围1.4538μm^1.4750μm的信号光输出。实现了可调谐红外光的输出,验证了晶体周期结构的均匀性。

输出波长可控的共孔径0.532μm/1.064μm/3.9μm激光器研究

为了实现激光器同孔径下多种波长高功率高频率的可控输出,采用激光放大、高重频调Q、光参量振荡、倍频及扫描反射镜等方法,进行了理论分析和实验验证。取得了在电源电流为42A、调Q频率10kH z的共孔径下,选择性输出40W的0.532μm、100W的1.064μm和12.6W的3.9μm激光的实验数据。结果表明,该激光器实验装置可实现同孔径下多种波长高功率、高频率可控输出。

水田激光耙浆平地机振动特性研究

激光耙浆平地机代表了水田耕整机的智能化和精准化发展方向,如何提高其作业精度是当前研究的重点,而激光信号接收精度是保证水田耕整机作业精度的关键因素之一。为此,从整机角度出发,分析了其振动特性对激光信号接收精度的影响。耙浆平地机是自由振动和受迫振动的耦合,振动给激光接收器和支撑杆带来较大的空间摆动,造成接收器偏离激光信号。根据动力学方程和四参数法建立双层隔振模型,采用模糊优化方法对隔振系统进行优化求解,在此基础上完成隔振系统结构设计。试验结果表明:该隔振系统可有效地降低整机振动对支撑杆的激励,支撑杆摆角从25°减小到2°左右,激光接收器横向振动振幅控制在6cm以下,隔振系统传递率稳定。

连续波中红外差频产生激光光源研究进展

连续波可调谐中红外相干光源在光谱分析、传感与探测等领域具有重要的应用价值。基于准相位匹配(QPM)的差频产生(DFG)技术是获取高效中红外激光输出的有效途径,其具有结构简单、调谐方便、室温运转和无阈值限制等优点。本文介绍了连续波中红外差频产生激光光源的基本原理及在高转换效率、宽带调谐、多波长运转和系统小型化方面的国内外研究进展,并对多种典型DFG激光系统的设计方案、技术特点和输出性能展开讨论,最后对连续波中红外DFG激光光源的发展前景进行了展望。

基于准相匹配线性电光效应的激光偏振态操控

基于周期性极化铌酸锂(PPLN)晶体的准相位匹配线性电光效应,利用邦加球理论,晶体在不同占空比和温度下,探索了输出激光偏振态随外加电场的演变规律。研究结果发现,激光偏振的演变对外加电场E_0、晶体占空比D和温度T_0非常敏感;若T_0为273 K,D为0.25、0.5和0.75,随着E_0的增加,输出偏振态成周期性演变;当D为0.5,且T_0为263 K、293 K和313 K时,输出偏振态的演变表现为无规则性。合理选择一定的外加电场、占空比和温度,可以实现任意偏振光。这些结果有助于PPLN偏振控制器的优化设计.

非线性光学频率变换及准相位匹配技术

本文综述了非线性光学频率变换技术的发展及在激光与光电子领域中的地位与作用 ,概述了它们的基本原理、特点及关键技术 ,展示了其广阔的应用前景。