混合微球谐振腔热非线性效应的增强方法（英文）

提出并实现了一种可增强微球谐振腔热非线性效应的方法。通过在微球谐振腔表面涂覆低折射率紫外胶形成并制备了混合谐振腔。通过分析混合谐振腔结构的热光系数,从理论和实验论证了混合谐振腔结构可获得更大的热非线性效应,同时验证了混合谐振腔的品质因素对热非线性的影响。应用此混合谐振腔结构于温度传感实验,结果表明通过增强方法制备的谐振腔其检测灵敏度提高了2.8倍。因此,此方法在传感应用、生物化学检测、通讯等领域也有广泛的应用前景。     

顺序注射氢化物发生-原子荧光光谱法同时测定环境水样中砷和镉

目的考察了光电倍增管负高压、砷和镉灯电流、原子化器高度、载气流量、屏蔽气流量、增敏剂等因素对测定结果的影响。方法建立一种顺序注射氢化物发生-原子荧光光谱法同时测定水样中砷和镉含量的方法。结果载流HCl的浓度为0.60 mol/L,KBH4质量浓度为20g/L,增敏剂硫脲和钴离子的质量浓度分别为80 g/L和70 g/L时,同时测定砷和镉的效果最佳。在最佳实验条件下,砷和镉的检出限分别为0.009 3μg/L和0.12μg/L,加标回收率为92.3%～103.9%,相对标准偏差小于3.5%,被测水样中共存离子对砷和镉的测定没有干扰。结论该法操作方便、快速,用于环境水样中砷和镉的同时测定,具有很好的可行性和实用性。     

A three-step system calibration procedure with error compensation for 3D shape measurement

System calibration, which usually involves complicated and time-consuming procedures, is crucial for any three-dimensional （3D） shape measurement system based on vision. A novel improved method is proposed for accurate calibration of such a measurement system. The system accuracy is improved with considering the nonlinear measurement error created by the difference between the system model and real measurement environment. We use Levenberg-Marquardt optimization algorithm to compensate the error and get a good result. The improved method has a 50% improvement of re-projection accuracy compared with our previous method. The measurement accuracy is maintained well within 1.5% of the overall measurement depth range.     

Two-dimensional electron gas characteristics of InP-based high electron mobility transistor terahertz detector

The samples of In_xGa_(1-x)As/In_(0.52)Al_(0.48)As two-dimensional electron gas(2DEG)are grown by molecular beam epitaxy(MBE).In the sample preparation process,the In content and spacer layer thickness are changed and two kinds of methods,i.e.,contrast body doping andδ-doping are used.The samples are analyzed by the Hall measurements at 300 Kand 77 K.The In_xGa_(1-x)As/In_(0.52)Al_(0.48)As 2DEG channel structures with mobilities as high as 10289 cm~2/V·s(300 K)and42040 cm~2/V·s(77 K)are obtained,and the values of carrier concentration(Nc)are 3.465×10~(12)/cm~2and 2.502×10~(12)/cm~2,respectively.The THz response rates of In P-based high electron mobility transistor(HEMT)structures with different gate lengths at 300 K and 77 K temperatures are calculated based on the shallow water wave instability theory.The results provide a reference for the research and preparation of In P-based HEMT THz detectors.     

肖特基结的制备与势垒测量

采用磁控溅射方法在Nb07％-SrTiO3基片上制作Au薄膜接触,并在氧气气氛下750℃退火30 min,在室温环境下测量电流电压和电容电压等特性曲线,观测整流特性,根据相应实验数据采用饱和电流法、电容C-2与反偏电压V成线性关系计算肖特基势垒的大小.     

罗丹明类测定三聚氰胺的荧光探针的合成及应用研究

报道了罗丹明乙二醛酰腙的合成及与三聚氰胺的反应。在pH 3.0的缓冲溶液中三聚氰胺对罗丹明乙二醛酰腙的荧光强度有增强作用,其增强程度与三聚氰胺的浓度成正比,据此建立了一种新的测定三聚氰胺含量的荧光分析法。该方法线性范围为0.5~10.0 mg/L,r=0.994,检出限为0.15 mg/L,样品测定的RSD为1.7%(n=7)。     

“《扇形薄板二维驻波的研究》质疑”一文的回复

正最近,吴崇试老师在《大学物理》期刊上发表了对本文作者于去年3月份发表的文章《扇形薄板二维驻波的研究》~([1])的质疑文章~([2]),我们认为文献[2]的质疑部分合理,但对文献[2]中的一些观点以及涉及到对本文作者之前的工作(即文献[3-5])的一些评论需要进一步探讨,主要体现在以下两点,请吴老师及各位同行指正.     

Analysis of dynamic features in intersecting pedestrian flows

This paper focuses on the simulation analysis of stripe formation and dynamic features of intersecting pedestrian flows.The intersecting flows consist of two streams of pedestrians and each pedestrian stream has a desired walking direction.The model adopted in the simulations is the social force model, which can reproduce the self-organization phenomena successfully. Three scenarios of different cross angles are established. The simulations confirm the empirical observations that there is a stripe formation when two streams of pedestrians intersect and the direction of the stripes is perpendicular to the sum of the directional vectors of the two streams. It can be concluded from the numerical simulation results that smaller cross angle results in higher mean speed and lower level of speed fluctuation. Moreover, the detailed pictures of pedestrians' moving behavior at intersections are given as well.     

基于中阶梯光栅光谱仪的激光诱导等离子体分析系统研究

为了满足激光诱导等离子体分析系统(LIPS)对分光系统的分辨率,光谱范围,体积等多方面要求。本文研制了一台中阶梯光栅光谱仪,该光谱仪能同时获得所有谱段范围内的光谱信息,令LIPS系统可实现快速在线实时分析。并且,该光谱仪采用可调节延迟时间的ICCD作为后端探测器,令整个系统可根据实际实验情况选择最优延迟时间接收光谱,提高了整个系统的信噪比。最后,搭建了一套激光诱导等离子体分析系统,对研制的中阶梯光栅光谱仪在系统中的可用性进行验证。通过对合金样品测试,整个系统的分辨率达0.02 nm,光谱范围覆盖190～600 nm。并且研制的LIPS系统光谱重复性较好,特征元素波长提取误差不超过0.01 nm,可较准确的对样品成分进行分析。     

有限长通电圆柱导体温度分布的严格解及COMSOL模拟

用分离变量法精确求解了有限长通电圆柱导体在第二、三类边条件下不同测试点的温度随时间的变化关系,并利用COMSOL多物理场仿真软件进行数值模拟,得到了温度在圆柱体内的分布图.与实验测出的圆柱体上下表面及侧面中间位置的温度随时间的变化关系相比,数值模拟结果与实验曲线变化趋势一致,可达到的最高温度完全符合,并与解析解所得当通电时间足够长时系统会趋于一个稳定的极限温度分布的结果相符合.