利用全息透镜实现光学矩阵乘法

本文提出了用两个多轴全息透镜和两片掩膜组成的光学系统实现两个矩阵相乘的运算．用三阶和六阶矩阵进行了相乘实验，结果表明，运算相对平均误差在５％左右．     

EFPI-FBG hybrid sensor for simultaneous measurement of high temperature and large strain

We report an extrinsic Fabry–Perot interferometer-fiber Bragg grating(EFPI-FBG) hybrid sensor in this letter. The interferometric cavity of the proposed hybrid sensor is composed of a glass capillary tube, a section of single-mode fiber, and a section of single-mode metal fiber with one FBG. The FBG processed by high-temperature annealing is used to measure temperature, whereas the fiber EFPI is adopted for strain measurement. One of the two aligned fibers is free along the axial direction, which is different from the traditional structure that both the fibers are fixed to glass capillary tube. Experimental results show that the sensor can measure high temperature and large strain simultaneously. The measuring range of temperature and strain for the hybrid sensor is up to 500 °C and 10,000 με, respectively. Effective temperature compensation of the hybrid sensor is realized, too.     

Welding-packaged accelerometer based on metal-coated FBG

A fiber Bragg grating-based accelerometer with a fully metalized package is presented. Magnetron sputtering and electroplating techneques are successively adopted to metalize bare SiO 2 fiber with a single Bragg grating. Laser welding techneque is adopted to fix the metal-coated fiber on the sensor component to obtain a fully metallized package without adhesives. Vibration test results demonstrate that the accelerometer has a flat frequency response over a 1-kHz bandwidth, with a resonance frequency of 3.6 kHz, wide linear measurement range of up to 8 g, and sensitivity of 1.7 pm/g .     

气液接触法制备球形氢氧化镁

利用气液接触法成功合成出了形状规则的球形氢氧化镁,并用X射线衍射仪(XRD)、热重(TG-DTG)、扫描电镜(SEM)和激光粒度仪表征了所得产品的结构、形貌、及粒度分布等性质。结果显示：所得球形氢氧化镁颗粒分散性较好,样品的表观粒径D₅₀=7.41μm,热分解温度始于363.6℃。最后根据气液接触反应的原理及氨气易挥发和被吸收的性质,对球形氢氧化镁的形成机理进行了讨论。     

A novel dual-wavelength fiber Bragg grating and its application in fiber ring laser

A novel method for fabricating dual-wavelength fiber Bragg gratings (FBGs) by using one phase mask is developed. The method is based on a double-exposure technique. Our technique lends itself to writing gratings with controllable reflectivity and separation of two Bragg wavelengths. A grating with two equal transmission peaks of 20.25 dB is obtained by this method and the separation of the two Bragg wavelengths is about 0.8 nm. With the grating, we demonstrate a dual-wavelength erbium-doped fiber ring laser whose interval of the two peaks is 0.8 nm. The laser's peak powers can get 3.1 mW above and have a good stability.     

长周期光纤光栅谐振波长与曝光量的变化关系

利用波动干涉理论推导了长周期光纤光栅的光栅方程. 利用色心模型和Kramers-Kronig原理，得到了长周期光纤光栅的中心谐振波长与曝光量的变化关系的理论公式，并进行了实验研 究. 理论和实验结果都表明，长周期光纤光栅的中心谐振波长与曝光量的关系按多项e负指 数之和规律变化，其变化率受到模板占空比的控制；另外，长周期光纤光栅的中心谐振波长 与模板占空比成反比关系. 关键词： 长周期光纤光栅 谐振波长 模板占空比     

具有温度补偿功能的光纤光栅传感解调系统

从理论和实验上研究了三角形光纤布拉格光栅的温度特性,结果表明：三角形光纤布拉格光栅谐振波长的温度变化率与普通光纤光栅的相同,并且其光谱形状不随温度的变化而改变。利用三角形光纤光栅光谱的这一温度特性,设计了一种具有温度补偿功能的应变传感解调系统。该系统利用斜线光纤光栅将光纤光栅应变传感的波长编码信息转换为强度,并且用信号强度与参考光强度的比值作为应变的度量值。研究表明,应变与应变度量值成线性关系,同时系统具有温度补偿功能。在三种不同的温度条件下,对悬臂梁的应变测试结果显示：在实验测量范围内,温度变化1℃导致的应变测量误差小于6微应变。由于采用信号强度和参考光强度的比值作为应变的度量值,避免了宽带光源的平坦度及波动对测量结果的影响。     

利用光纤光栅实现力学量二维实时感测的研究

将一根光纤上写入两个不同波长的布位格光栅，沿矩形悬臂梁的中性而与表面的交线粘贴于靠近固定端两个相邻侧面，利用不纤光栅波长绝对编码的特性，实现了应力（或应变）与位移的二维实时传感测量。理论分析和实验结果证明，通过监测粘贴梁上的两个光纤光栅波长变化的大小和指向，能够实时感测应力、位移等力学量的大小和方向。在与梁轴垂直的方向上，获得应力实验灵敏度分别为5．32nm/N和3．21nm/N，位移实验灵敏度分别为0．30nm/mm和0．48nm/mm。     

Towel型域到方形计算域全局同胚网格的数值生成方法

对任意维Towel型物理域D到方形计算域Dc的全局同胚映射数值实现方法进行研究,给出了任意维等参数正变换的数值迭代求解方法,并就迭代求解方法的误差进行分析,给出了数值网格点互不重合的一个充分性条件,最后,根据该方法,给出了钱塘江口的二维不重叠数值网格生成算例。     

气液接触法制备球形氢氧化镁(英文)

利用气液接触法成功合成出了形状规则的球形氢氧化镁,并用X射线衍射仪(XRD)、热重(TG-DTG)、扫描电镜(SEM)和激光粒度仪表征了所得产品的结构、形貌、及粒度分布等性质。结果显示:所得球形氢氧化镁颗粒分散性较好,样品的表观粒径D50=7.41μm,热分解温度始于363.6℃。最后根据气液接触反应的原理及氨气易挥发和被吸收的性质,对球形氢氧化镁的形成机理进行了讨论。