The seed laser system of the FERMI free-electron laser:design,performance and near future upgrades

An important trend in extreme ultraviolet and soft X-ray free-electron laser(FEL)development in recent years has been the use of seeding by an external laser,aimed to improve the coherence and stability of the generated pulses.The highgain harmonic generation seeding technique was first implemented at FERMI and provided FEL radiation with high coherence as well as intensity and wavelength stability comparable to table-top ultrafast lasers.At FERMI,the seed laser has another very important function:it is the source of external laser pulses used in pump–probe experiments allowing one to achieve a record-low timing jitter.This paper describes the design,performance and operational modes of the FERMI seed laser in both single-and double-cascade schemes.In addition,the planned upgrade of the system to meet the challenges of the upgrade to echo-enabled harmonic generation mode is presented.

The 5.2 kW Nd：YAG Slab Amplifier Chain Seeded by Nd：YVO4 Innoslab Laser

A high power Nd：YAG end-pumped slab amplifier chain with a Nd：YVO4 innoslab laser as the master oscillator is demonstrated. A chain output power of 5210 W with beam quality of 4 times the diffraction limit is achieved by double-passing the first amplifier stage and single-passing the second stage with an optical efficiency of 29% while working at a frequency of 1kHz and pulse width of 200 μs.

Development of an injection-seeded single-frequency laser by using the phase modulated technique

An injection-seeded single-frequency Q-switched Nd：YAG laser is accomplished by using a phase modulated rampfire technique. A RbTiOPO4（RTP） electro-optic crystal is selected for effective optical path length modulation of the slave self-filtering unstable resonator. This single-frequency laser is capable of producing 50 m J pulse energy at 1 Hz repetition rate with a pulse width of 16 ns. The standard deviation of laser pulse intensity for consecutive 100 shots from the mean pulse intensity is less than 1.05%. A spectral linewidth of less than 0.5 pm with a frequency jitter of about 14 fm over30 min is obtained.

Study on mutagenic effects of rice seeds irradiated by CO_2 laser

Seeds of japonica rice (cv. Zhenuo 2) at twodifferent physiological states (dry seeds withwater content 13% and wet seeds soaked inthe water for 36 h) were irradiated by COlaser in four different power-densities. Theseeds irradiated by 200GY ofCo γ rays andno radiated seeds were used as the controls.Results showed that the biological effects

Characterization of the Crystal Structure of Sesame Seed Cake Burned by Nd: YAG Laser

This paper reports obtaining of useful and high-value materials from sesame seed cake (SSC). For this purpose, SSC sample was burned for 30 s using Nd: YAG laser with output power 60 W. The products of this process and non-burned SSC were characterized by X-ray diffractometer (XRD), energy dispersive x-ray (EDX) and Fourier transform infrared (FTIR) so as to investigate its crystal structure and chemical components. XRD results of the SSC before burning process showed amorphous silica, rhombohedral phase of carbon, monoclinic phase of aluminum chloride, the hexagonal phase of moissanite-4H, (yellow, black) and hexagonal phase of graphite-2H, C (black). While the results of the burned SSC sample showed that the burning process using the power of Nd: YAG laser cased in appearing of crystalline hexagonal phase for silica and Carbon Nitride and converting the rhombohedral phase of Carbon into hexagonal phase. FTIR showed a number of absorbance peaks assigned to silica.

1116 nm单频脉冲Nd∶YAG激光器

针对共振荧光测风雷达的探测需求,设计和研制了种子注入的Nd∶YAG电光调Q单频1116 nm脉冲激光器,采用带偏置电压反馈的扫描-触发谐振探测技术,建立了1116 nm单纵模振荡,并对中心频率稳定性进行分析。最终实现输出1116 nm激光单脉冲能量6.48 mJ,重复频率60 Hz,输出线宽为33.2 MHZ,脉冲宽度为75.7 ns。通过波长计测量输出光波长,波长稳定在1116.2979 nm附近。利用外差拍频,测定120 min中心频率稳定性(均方根)为818.3 kHz。该激光器输出光通过三倍频可变换至372 nm,作为铁共振荧光多普勒测风激光雷达的发射光源,频率抖动量对应的风速测量误差小于1 m/s。

基于激光三维重建的种薯芽眼识别方法研究

种薯芽眼的准确识别是实现智能切块的重要前提。为解决种薯芽眼机器视觉识别易出现误判和不易获取芽眼三维位置信息而导致切块不均匀的问题,提出一种基于激光三维重建的种薯芽眼识别方法。确定点云获取过程中ROI区域消除采集过程中背景的影响,通过工业相机与线激光器相配合连续采集移动种薯的激光光条图像获取其点云数据;根据点云密度去除随机噪声和裙边噪声,提高点云质量,降低芽眼误判率。采用体素滤波算法稀疏点云,提高识别效率;通过对种薯表面任意点的局部邻域进行平面拟合后获取点云法向量,构建加权协方差矩阵参数化种薯表面点云,根据矩阵特征值大小设定的动态阈值对种薯表面点云进行初步筛选,得到种薯芽眼判别的候选点,采用欧式聚类算法获取候选点的点云簇,选取每个点云簇中最大特征值点为关键点,利用计算关键点和邻域内其他点构成的中心线连线向量与法向量夹角余弦值对关键点再次筛选,最终确定种薯各个芽眼位置。试验结果表明,芽眼识别率为95.13%,芽眼误识别率为4.87%,可为马铃薯种薯智能化切块时芽眼识别提供参考。

基于多纵模振荡种子源的高功率窄线宽光纤激光器关键技术分析及研究现状

基于多纵模振荡种子源的窄线宽光纤激光器具有光路简单、结构紧凑、可靠性高、成本低等特点,在实际工程应用以及在空间受限的载荷平台上有着显著优势,是高功率光谱合成的理想子束模块。受自脉冲效应的影响,多纵模振荡种子源的时域特性较差,导致放大过程中会产生较强的光谱展宽与受激拉曼散射效应。这限制了其输出功率的进一步提升并降低了其光谱纯度。本文首先介绍了4种常见的窄线宽种子源,并重点分析了多纵模振荡种子源中自脉冲效应产生的机理及抑制方法,对优化多纵模振荡种子源和放大器的关键技术进行了详细介绍,归纳总结了近几年的技术突破与研究成果,对未来的发展方向进行了展望分析。本文研究对基于多纵模振荡种子源的窄线宽激光器的功率提升和光谱优化提供一定思路。

温度对自种子直线腔光纤激光器的影响研究

为了研究温度对光纤激光器输出性能的影响,构建了一种自种子直线腔光纤激光器。该激光器采用掺铒光纤作为腔内放大增益介质,并利用光纤布喇格光栅(FBG)和光纤环镜组成线形激光腔。通过改变腔中核心器件的温度对激光器进行了实验研究。实验结果表明:随着温度的升高,激光器波长线性增加;与FBG自身加热时激光器的输出波长变化相比,激光器波长额外红移0.05243 nm。当温度从25℃升高至55℃时,激光器输出转换效率降低了4.878%,输出功率降低了33%。

Review of fully coherent free-electron lasers

Generation of intense, fully coherent radiation with wide spectral coverage has been a long-standing challenge for laser technologies. Several techniques have been developed in recent years to extend the spectral coverage in optical physics, but none of them hold the potential to produce X-ray laser pulses with very high-peak power. Urgent demands for intense X-ray light sources have prompted the development of free-electron lasers(FELs), which have been proved to be very useful tools in many scientific areas. In this paper, we give an overview of the basic principle of FELs, techniques for realizing fully coherent FELs, and the development of fully coherent FEL facilities in China.

谐波驱动自种子自由电子激光方案模拟

在自由电子激光(FEL)中,谐波驱动自种子(HLSS)可以减小自放大自发辐射(SASE)机制的辐射带宽、提高X射线波段FEL的谱亮度,其原理已被FLASH、PAL、European XFEL等实验室验证。HLSS可改善SASE FEL的相干性,但同时相对SASE并没有提出新的硬件需求,因此可以很方便地应用于国内在建或运行在SASE机制的自由电子激光装置。本文对HLSS方案实现窄带宽效果的原理进行了归纳,给出了波荡器参数的定量条件;随后使用深圳中能高重复频率X射线自由电子激光的典型参数进行模拟,模拟结果表明在出光波长为4.5 nm与6.75 nm时,HLSS的带宽减小至SASE的1/2左右,同时谱亮度提高至2倍左右。

Fabrication of large-scale ripples on fluorine-doped tin oxide films by femtosecond laser irradiation

The large-scale uniform self-organized ripples are fabricated on fluorine-doped tin oxide （FTO） coated glass by femtosecond laser. They can be smoothly linked in a horizontal line with the moving of XYZ stage by setting its velocity and the repetition rate of the laser. The ripple-to-ripple linking can also be realized through line-by-line scanning on a vertical level. The mechanism analysis shows that the seeding effect plays a key role in the linking of ripples.

基于电机驱动的水稻直播机PLC控制系统设计

针对目前无调速模块和播种检测装置的水稻精密排种器容易出现堵塞、漏播及播种量超标或不足等问题,本文设计出基于电机驱动的水稻直播机智能化控制系统。该系统以PLC为控制中心,通过在地轮上安装霍尔传感器来测速,在种子箱里安装激光测距传感器来测量剩余种子量的多少,在排种管安装红外光电计数器来检测排种情况,通过实时控制步进电机的转速来带动排种器按需排种。与其他水稻直播机进行对比试验,结果表明:本文设计的水稻直播机PLC控制系统表现出了较高的控制精度,提高了播种机的播种质量。

基于手持式三维扫描仪的种子快速建模与试验

种子外观形态与建模研究是很多研究课题中重要的组成部分。种子颗粒较小,常规扫描建模无法对种子背面扫描建模,现有方法大都采用二次扫描进行缝合拼接,建模过程复杂、建模效率低且拼接操作易引入误差。为解决上述问题,搭建一种基于手持式激光扫描仪的种子三维全貌特征测绘平台,提出了种子快速建模方法,可实现一次性快速测得种子外形全貌特征,无须进行模型拼接等操作,降低了建模难度,提升了建模效率。对茶籽、花生、莲子三种类型的种子进行了建模试验和分析,结果表明:茶籽最大差值为0.07 mm,最大相对误差为0.38%;花生的最大差值为0.05 mm,最大相对误差为0.15%;莲子的最大差值为0.04 mm,相对误差为0.27%;相对误差均低于0.5%,说明该方法具备较高的建模精度。

RTP电光晶体的生长及其器件性能研究

磷酸氧钛铷(RbTiOPO4,简称RTP)是综合性能优异的电光晶体,具有电光系数高、半波电压低、激光损伤阈值高、器件小巧、环境适应性强等优点,已成为新一代电光器件应用材料,非常适合用作电光开关、电光调制器等。激光系统的发展迫切需求更高功率、更高重复频率和更窄脉宽激光用高性能电光晶体,基于此,本文选用富Rb的高[Rb]/[P]摩尔比值生长体系,通过顶部籽晶熔盐法生长出高质量RTP晶体,测试了晶体或器件的光学均匀性、重复频率、插入损耗、消光比和抗激光损伤阈值,结果表明,该晶体的光学均匀性为7.3×10^(-6)cm^(-1),重复频率为501 kHz,插入损耗为0.49%,消光比为31.57 dB,激光损伤阈值为856 MW/cm^(2)。

自研20μm/400μm保偏光纤基于振荡器种子实现4 kW突破

高功率窄线宽光纤激光器在相干合成、光谱合成以及非线性频率转换等领域发挥了重要的作用,吸引了大量国内外研究人员的广泛关注。近年来,华中科技大学武汉光电国家研究中心光纤激光技术团队持续进行优秀的国产化高功率窄线宽线偏振光纤激光技术的研究工作,2022年,课题组采用基于振荡器的种子源加自研的保偏掺镱光纤先后实现单正向1.2 kW和单反向3.2 kW的线偏振窄线宽光纤激光输出。近期,课题组进一步优化保偏掺镱光纤的掺杂组分,并改良振荡器种子源设计来抑制窄线宽保偏放大过程中的TMI和受激布里渊散射(SBS)效应,最终实现了输出功率4.1 kW的窄线宽线偏振全光纤激光输出。

烟草种子不同成熟时期形态特征的激光扫描共聚焦显微镜观察

对烤烟K32 6不同成熟时期的种子进行了激光扫描共聚焦显微镜 (LSCM)观察 ,研究了烟草种子不同成熟时期形态、颜色 ,自发荧光强度的变化规律。发现烟草种子表面波状花纹在不同成熟时期均较稳定 ,各成熟时期种子的自发荧光强度存在显著差异。结果表明应用LSCM进行烟草种子检测可作为烟草种子质量控制以及种质资源研究的依据之一。

运用气流粉碎机超微粉碎葡萄籽的工艺研究

[目的]探索葡萄籽超微粉碎的最佳工艺。[方法]应用小型气流粉碎机对葡萄籽进行超微粉碎,激光衍射粒度分析仪测定其粒度分布,探索了工质压力、分选频率、进料量、粉碎次数对粉碎效果的影响,并通过正交试验确定最佳工艺。用显微镜观察超微粉的破壁情况。[结果]最佳工艺为:工质压力0.8 MPa,分选频率30 Hz,进料量90 g,粉碎1次。在此条件下得到超微粉的D50(中位径)和D95(累计分布在95%时的粒径)分别为15.61和25.65μm,显微观察发现细胞破壁率在95%以上。[结论]运用气流粉碎机实现了葡萄籽的超微粉碎。

不同处理对采后油茶果油体形态及含油率的影响

采用尼罗红染色和共聚焦激光扫描显微镜技术相结合,探讨有光处理、无光处理、室内阴干和自然晒干4种不同处理方式对采后油茶果油体及含油率的影响,并对制片过程中油茶果的切片厚度及染色时间进行优化。结果表明:切片厚度为60μm,染色12 h后,油体的观察效果较佳,油体均呈规则的圆形球状,直径分别为(23.97±8.94)、(10.57±8.01)、(10.93±6.51)、(16.16±1.34)μm;4种处理方式的油茶果仁含油率分别为53.08%、51.24%、48.95%、47.34%,与含油体率呈线性正相关,拟合度较高。

排种监测传感器的试验研究

提出了排种检测光电传感器的覆盖率问题 ,并利用红光半导体激光二极管 (RL D)和硅光电池构造了一种高覆盖率的排种传感器。通过两片平行对置的平面镜多次反射 RL D发射出的激光束 ,在排种管的检测截面形成激光束栅格。试验表明 ,本传感器对不同体积的种子都有相当高的检测准确率 ,可用于玉米、大豆的排种计数 ,也可用于玉米、大豆、小麦。