A temperature sensor based on the splicing of a core offset multi-mode fiber with two single mode fibers

In this paper, a temperature sensor based on the splicing of a core offset multi-mode fiber with two single mode fibers is proposed and demonstrated experimentally. The temperature sensing principle is analyzed and related experiment is performed. By controlling the core offset and splicing length of the specialty multi-mode fiber (SMMF), two sensors with different temperature sensing properties are obtained, and experimental results show that the temperature sensitivity can be up to 48.76 pm/°C in the range of 25—95 °C. Moreover, it has many advantages, including small size, high sensitivity, and simple structure. So it can be used in potential temperature sensing applications, such as industrial production, biomedical science, power electronics, and so on.     

Miniature Fabry-Perot interferometric sensor for temperature measurement based on photonic crystal fiber

A novel miniature Fabry-Perot interferometric (FPI) temperature sensor is proposed and demonstrated experimentally. The modal interferometer is fabricated by just splicing a section of photonic crystal fiber (PCF) with a single-mode fiber (SMF). The air holes of the PCF are fully collapsed by the discharge arc during the splicing procedure to enhance the reflection coefficient of the splicing point. The transmission spectra with different temperatures are measured, and the experimental results show that the linear response of 11.12 pm/°C in the range of 30–80 °C is obtained. This sensor has potential applications in temperature measurement field.     

基于包层模谐振的三包层石英特种光纤温度传感特性研究

提出了一种基于包层模谐振的光纤温度传感器. 它是通过将三包层石英特种光纤(TCQSF)两端分别与普通单模光纤(SMF)电弧熔接构成的SMF-TCQSF-SMF结构. 根据耦合模理论, 首先将TCQSF等效为三个同轴波导, 按各波导模场的分布特点标量计算其传输模式的色散曲线, 并深入研究其耦合长度与传输谱线之间的关系; 其次根据光纤的热光效应及热膨胀效应, 分析计算该传感器的温度灵敏度; 最后选取耦合长度为一个拍长时的传感器进行温度传感实验. 实验结果表明, 在35-95 ℃的温度变化范围内, 其温度灵敏度为73.74 pm/℃, 与理论计算结果一致. 因此, 该传感器具有结构简单、制备容易、灵敏度高、包层模激发可控等优点, 可用于工业生产、生物医学等温度传感领域.     

一种基于多准则决策和PSO-LM混合优化算法的多峰Brillouin散射谱的特征提取方法

采用传统方法对多峰Brillouin散射谱进行拟合的过程中,通常是以谱线最大功率点为基准的,却忽略了其他比该点小但却是极值的功率点。这样获得的拟合曲线通常只有一个峰值,相当于把除最高峰之外还有多个小峰的多峰Brillouin散射谱进行了简化,导致大量有用信息的丢失。为了提高Brillouin散射谱的特征提取精度,提出了一种基于MCDM和PSO-LM混合优化算法的多峰Brillouin散射谱特征提取方法(MCDM-PSO-LM)。MCDM可以识别和准确定位多峰Brillouin散射谱的各个波峰和波谷;PSO-LM混合优化算法可以实现分别对各个波峰和波谷的曲线进行拟合并找到每一个波峰的中心频率,该算法既克服了PSO算法过早收敛于局部极值和LM算法依赖初值的问题,又可以将PSO算法的全局搜索能力和LM算法的局部收敛能力结合在一起。较传统算法而言,MCDM-PSO-LM算法保证了对最优值求解的速度和精度,提高了运算能力,使解析解最大限度地接近最优值。分别在不同信噪比和不同线宽条件下进行仿真验证,频移和温度误差分析结果表明,MCDM-PSO-LM方法可以对多峰Brillouin散射谱的各个波峰与波谷进行准确定位,可用于多峰Brillouin散射谱的特征提取,识别效果明显强于传统算法,提高了信息分析的准确性。     

Broadband quasi-phase-matched second-harmonic generation in MgO:LiNbO3 waveguide

The quasi-phase-matched(QPM) condition of broadband second harmonic generation(SHG) in Ti-diffused MgO:LiNbO3 waveguide is theoretically simulated.The results show that the center wavelength of broadband SHG dependent on the waveguide width is around 1550 nm and the bandwidth is 50 nm.     

基于IABC-SVR算法的拉曼光谱定量分析山羊血清蛋白含量

提出了一种基于拉曼光谱和改进人工蜂群算法优化支持向量机回归（IABC-SVR）算法快速定量检测山羊血清蛋白含量的方法。传统人工蜂群算法在数据区域规模较大时,收敛速度逐渐减慢, 出现效率低、精准度下降、局部最优解概率高等问题。所提出的算法解决了这些问题,使算法在进化前期避免陷入局部最优解,在进化中后期能够保持解的全局搜索能力。常规测定血清蛋白总量的方法通常采用凯氏定氮法、双缩脲法等,但存在时效慢、污染样本等缺点。采用拉曼光谱法进行检测,具有快速、无损的优点。以山羊血清为分析对象,按一定体积比配置35组待测样本,用拉曼光谱仪采集拉曼光谱,光谱采集范围为300~1 300 cm-1,采用基线矫正去除荧光背景,使用Savitzky-Golay光谱平滑法对原始光谱进行平滑处理,归一化处理光谱数据,并对拉曼光谱特征峰进行归属。实验结果表明,拉曼光谱能够表征血清中主要化学集团的信息,且由于官能团浓度差异,光谱特征峰强度随浓度变化明显,因此基于特征峰信息可以测定血清蛋白总量。实验中,以购买的山羊血清蛋白含量为基准,通过配置样本的体积比得到各组待测血清样本的蛋白含量,配置的单个液体样本体积为3 mL,随机选取8组实验样本作为模型测试集,剩余27组作为模型训练集。以经过处理的光谱特征峰强度和对应的血清蛋白含量分别作为模型的输入值及输出值,建立IABC-SVR,ABC-SVR和BP三种算法的定量模型,对测试集血清蛋白总量进行预测。最后通过均方差(MSE),相关系数（r）与建模时间分别进行对比,结果表明通过IABC-SVR建立的山羊血清蛋白定量矫正模型效果最佳,模型的相关系数为0.990 27,均方误差为0.244 3,建模时间为1.9 s,预测值方差均小于0.001 g·mL-1,预测准确率为99.8%。实验结果表明,应用激光拉曼光谱技术结合IABC-SVR算法,对快速定量检测山羊血清蛋白含量,具有较高的准确率和稳定性。     

基于ABC-SV R算法的拉曼光谱检测混合油脂肪酸含量

提出了一种基于激光拉曼光谱和人工蜂群智能优化支持向量回归机(ABC-SVR)算法的快速定量检测三组分混和油中3种脂肪酸含量的方法。该方法针对光谱数据信息与样本之间非线性、高维度的关系,建立了预测精度及建模效率均高于同类对比算法的数学模型,同时避免了气相色谱法、液相色谱法等对混合油脂肪酸含量的检测方式,根据纯种油中3种脂肪酸含量的国际标准,由油品配置体积得到脂肪酸质量,有效降低了检测成本与实验复杂程度,提高了检测工作的实用价值。首先根据一定梯度配置66组混合油检测样品,使用便携式拉曼光谱仪采集样本的拉曼光谱信息,扣除背景噪声;观察多组样本的拉曼光谱图可知,由于官能团浓度的差异,食用油的拉曼特征峰位移基本相同,特征峰的峰值明显不同,因此基于特征峰信息可以区分食用调和油的不同混合物;其次对拉曼光谱做背景扣除、光谱平滑、最大值谱线归一化三步预处理,以降低实验中不可控的外界因素及背景荧光的影响,准确提取光谱特征峰强度信息;然后根据纯种油中3种脂肪酸的国际标准含量,结合国家食品法典委员会标准CODEX STAN210-1999《指定的植物油法典标准》中规定的纯种油密度中值,由油品体积得到脂肪酸质量数;随机选取56组样本数据作为训练集,剩余10组样本数据作为预测集;以训练集光谱特征峰强度和脂肪酸质量分别作为回归模型的输入及输出值,建立SVR和PSO-SVR,ABC-SVR三种混合优化算法对比的定量分析模型,对测试集的3种脂肪酸含量分别进行预测;最后通过均方误差(MSE)、相关系数(r)及建模时间(Elapsed time)分别进行对比,建立数据表对模型精准度进行检验。实验结果表明,通过ABC-SVR定量分析模型效果最佳,3种脂肪酸含量预测值与真实值的均方差分别为0.88×10-4,16×10-4和8×10-4,均低于0.002;相关系数分别为93.43%,99.65%和99.43%,均高于93%;预测时间(Elapsed time)分别为1.26,2.42和2.14 s。因此,所提出的检测方法,具备较高的精确度、较快的建模时间,且在理论上的类似条件下可适用于其他样品检测工作,可为振动光谱学对食用油掺伪分析的进一步工作提供可行的理论依据。     

直线运动型无线光通信中振动对光接收功率的影响分析

对直线运动型无线光通信中的光束偏转进行了分析,给出了不同运动距离与光斑半径、光接收功率的关系;不同偏转角度与光接收功率、像点偏移量的关系.在直线轨道上,进行了发射端静止、接收端运动,发射端运动、接收端静止两种情况下的光功率接收实验,并分别比较大孔径光纤和实心耦合光锥的空间光接收性能,提出采用实心光锥作为空间光耦合接收元件.实验结果表明:在运动距离最远为80 m的情况下,实心耦合光锥能有效接收光束偏移后的聚焦光信号,适用于直线运动型无线光通信.     

A tension insensitive PbS fiber temperature sensor based on Sagnac interferometer

In this paper, a tension insensitive PbS fiber temperature sensor based on Sagnac interferometer is proposed and demonstrated. The sensing mechanism of tension and temperature is analyzed. The relationships between the interference spectrum, temperature and tension are analyzed, respectively. The experimental temperature range is 36—70 °C. The experimental results show that the interference spectrum is red shifted, and its sensitivity is 53.89 pm/°C. In tension experiment, the tension range is 0—1 400 με. The experimental results show that there is no wavelength shift in the interference spectrum. The sensor is immune to tension cross-sensitivity compared with other sensors. It can be used for temperature testing in aerospace, chemistry and pharmacy.     

Refractive index insensitive temperature sensor based on waist-enlarged few mode fiber bitapers

A refractive index insensitive temperature sensor based on waist-enlarged few mode fiber (FMF) bitapers is presented. The first section of FMF is spliced between two single-mode fibers. In fusion process, the waist-enlarged FMF bitapers can be obtained by large current discharging repeatedly. The refractive index and temperature sensing mechanisms are analyzed. For the sensors with different sizes, the refractive index and temperature experiments have been performed. The results show that in the refractive index ranges of 1.335 0—1.346 6 and 1.348 2—1.419 3, the refractive index insensitivity is verified. In a temperature range of 31.9—90 °C, the sensor sensitivity can be up to 85.57 pm/°C. In addition, it has a compact structure. Therefore, the sensor can avoid the cross sensitivity for measuring the refractive index and temperature simultaneously.