分布式遥感编队多星协同观测中的姿态控制

针对分布式遥感编队中的协同观测问题，本文开展了多星协同姿态控制研究。首先建立了参考航天器由对日定向到对目标凝视观测的期望姿态，设计了基于姿态、角速度偏差的比例-微分（PD）控制器，证明了闭环系统的李雅普诺夫稳定性。在此基础上，进一步建立了伴飞航天器的期望姿态，为使目标在不同航天器像平面上成像位置匹配，以伴飞航天器、参考航天器的姿态之差为基础设计了伴飞航天器的PD控制器，证明了系统的稳定性。最后，将理论结果进行了仿真验证，结果显示伴飞航天器、参考航天器姿态控制误差小于0.01°，精度满足分布式遥感多星协同观测的任务需求。     

Development of low-loss lead-germanate glass for mid-infrared fiber optics: II. preform extrusion and fiber fabrication

For lead-germanate glass fibers, reducing the content of hydroxyl (OH) groups and the formation of metallic Pb species is essential to pave the way for their applications as low-loss mid-IR fiber optics since OH and metallic Pb species cause intense absorption and scattering loss, respectively, in the mid-IR spectral range. The first part of this study reported the optimization of the glass melting procedure to obtain low amount of OH while preventing formation of metallic Pb species in lead-germanate glass. Here, the second part of this study reports the investigation of the process conditions to fabricate low-loss lead-germanate glass fiber through further understanding of the co-effects of glass melting and heat treatment atmospheres on the formation of nano- and micron-scale metallic Pb species in both the as-produced and heat treated lead-germanate glasses. Finally, using this advance in knowledge, we successfully fabricated low-loss lead-germanate glass fibers with no presence of reduced metallic Pb particles by optimizing dehydration agent, glass melting, preform extrusion and fiber drawing conditions. The optimized fabrication conditions reduced the unstructured fiber loss by almost one order to <0.3 dB/m at 1.55 μm.     

New exact solutions of the Tzitzéica-type equations in non-linear optics using the expa function method

One specific class of non-linear evolution equations, known as the Tzitzéica-type equations, has received great attention from a group of researchers involved in non-linear science. In this article, new exact solutions of the Tzitzéica-type equations arising in non-linear optics, including the Tzitzéica, Dodd–Bullough–Mikhailov and Tzitzéica–Dodd–Bullough equations, are obtained using the exp_a function method. The integration technique actually suggests a useful and reliable method to extract new exact solutions of a wide range of non-linear evolution equations.     

微纳米气泡在棉织物碱退浆工艺中的适用性

研究了微纳米气泡对棉织物碱退浆的作用,分析了不同碱用量条件下,微纳米气泡作用时间、加工温度等对碱退浆效果的影响,优化了处理工艺。结果表明,微纳米气泡对棉织物碱退浆促进作用明显,在微纳米气泡条件下碱退浆的优化工艺为:碱液用量2 g/L,时间40 min,温度80℃。     

空间红外大口径折射式低温镜头设计与验证

针对目标探测类空间红外相机大范围成像、高灵敏度探测、高精度定位等应用需求,文中提出采用像方远心光路和低温光学技术结合的解决方案,设计了物方视场角8°×8°、入瞳口径265 mm、工作温度200 K的像方远心折射式光学系统。镜头最大口径280 mm,采用多级分散的弹性支撑设计,解决大口径低温透镜装框、透镜组件支撑和镜头整体安装各环节的热应力卸载问题。在保证高刚度和低漏热的情况下,使低温下透镜的热应力对镜头能量集中度的影响降低到可接受范围内。镜头完成装调及室温下像质确认后,进行了力学振动试验,并将其制冷到200 K水平测试像质,测试结果表明,镜头能量集中度达到轴上75%,边缘视场72%。     

微纳功能材料在环境治理中的应用

介绍了处理空气和水体污染的各类吸附材料，并阐述了目前在环境治理中“强化富集/催化降解”一体化复合材料的最新研究进展。本文通过对比发现，尽管吸附材料价格便宜、稳定且易操作，对于废水和废气具有较好的吸附性能，且吸附能力可以通过一定的改性方法进一步提升，但存在吸附量低极易饱和、材料更换比较频繁、吸附饱和后容易造成二次污染等缺点，而催化技术是将这些污染物催化氧化成CO₂和H₂O等无机小分子，价格便宜、无二次污染、净化率高、能耗低。通过将吸附与催化技术相结合，可以发现吸附材料的加入成功提升了催化剂的催化效率，既可以解决吸附技术的缺点，同时保留催化技术的优点，是目前处理这些污染物最有前景的方法之一。     

A neural network based technique for vibration characterization using Gaussian laser beams

This paper presents a neural network technique combined with an optical measurement system for the characterization of mechanical vibrations in industrial machinery. In the proposed system, the Gaussian beam of a laser source illuminates on an array of photodetectors. If either the laser source or the photodetector array is coupled with a vibrating system, then the optical powers detected by the photodetectors will vary accordingly, and are expected to reflect the magnitude and frequency of the X–Y planar vibrations of the monitored system. The time-varying optical powers are input to an artificial neural network-based vibration monitoring system which maps the power distributions to the X–Y position of the laser beam center. An experimental setup of the system is built and used for training and testing purposes. The obtained experimental results demonstrate the adequacy of combining optical techniques with neural networks to estimate the vibration frequency and magnitude. Estimated frequencies were within 1% of the actual ones, and the estimated magnitudes were within 29% of the actual magnitudes when using a chirp signal in the training phase. The magnitude estimation percentage error was further reduced below 12% when the neural network was trained with a decaying chirp signal.     

高功率光纤激光器光纤器件封装应力影响研究

高功率激光器无源器件制作过程中封装不当引入的应力,会导致信号光光束质量劣化和光纤温升,为了解决此问题,理论分析了光纤形变对信号光模式分布的影响,利用有限元方法建立包层光导致光纤发热模型,实验研究了不同封装方式对光纤发热情况和信号光光束质量的影响。实验表明,应力导致的光纤形变会造成信号光M2值在受力方向上略微变小而其垂直方向上变大,在输出100 W信号光时,施加应力导致的M2值的变化最高为0.39,与仿真结果相符。在光纤温升方面,相比于使用硬质胶水带来的12 ℃温升,使用硅橡胶封装的剥离器将温升控制在5 ℃以内,且其封装应力引入的M2值的变化在0.05以内。     

超快激光在纳米溶液中的超连续光丝光谱技术

为了产生宽谱带超连续白光光谱，将飞秒激光聚焦到纳米溶液中形成光丝，最终产生出400～950 nm的超连续白光光谱。采用集成CCD的显微镜装置对伴随光丝的气泡进行拍摄，并研究了气泡定向运动的规律。计算表明，气泡的运动速度可以达到0.16 m/s，这表明水流也可以达到相应的速度。这种由光丝导致的高速水流，可对微流控技术的研究起到积极的作用。     

电子束诱导沉积钴微米线及其铁磁性

通过电子束诱导沉积的方法制备了钴(Co)微米线,并利用扫描电子显微镜(SEM)、原子力/磁力显微镜(AFM/MFM)以及物性测量系统(PPMS)等手段对Co微米线的沉积尺寸、微结构、铁磁性和电学性质进行了测试和分析。研究结果表明:Co微米线轮廓清晰、均匀性好。在不同的沉积条件下,微米线的实际长度与设定长度基本一致;实际宽度数据呈类梯形分布,半高宽是设定值的2~10倍;实际厚度低于设定厚度的60%。沉积电流对Co微米线的铁磁特性有重要影响。当沉积电流大于0.5 nA时,样品呈现出良好的铁磁特性。另外,电学性能测试结果显示Co微米线呈现绝缘特性。成功制备了室温铁磁绝缘Co微米线,这将有助于深入开展微纳尺度的结构与器件的研究和应用。