劈裂纳米环多极表面等离激元共振及折射率传感特性分析

研究了在三开口劈裂金属纳米环中,当入射场偏振方向不同时出现的多极局域表面等离激元共振现象及折射率传感特性。研究表明,当入射场偏振方向分别沿x 轴和y 轴时,在可见光-近红外区域分别激发起两个和三个明显的共振峰。通过改变缺口的张角,能够实现对共振峰位和强度的可控调整。共振峰位处劈裂纳米环的近场分布表明,LHA(左半弧)和DRHA(双右半弧)之间等离激元的杂化耦合是形成上述共振的原因。劈裂纳米环的多极共振非常适合折射率传感应用。当改变周围环境折射率,入射场沿x 轴偏振时,折射率敏感度的最大值可达到1365nm/RIU;入射场沿y 轴偏振时,折射率敏感度最大值可达2229nm/RIU。     

聚变堆高热流部件超汽化换热实验研究

搭建了常压水超汽化实验回路(HVL-Ⅰ),采用平面激光诱导荧光(PLIF)、高速摄影、微距摄影、粒子成像测速(PIV)等先进测量技术,开展聚变堆面对等离子体部件(第一壁、偏滤器)在高热流过冷沸腾工况下强化换热特性实验研究。选择三角形和矩形翅片的铬锆铜超汽化样件,实验工况为常压室温(296K),若丹明B 水溶液流速 0.3～0.5m•s⁻¹ 连续可调,热流密度～5MW•m⁻²。实验结果表明同等工况下,矩形翅片比三角形翅片换热效果显著增强,性能提升约30%～50%。微距摄影显示翅根涡流形态保持时间越短,越有利于小汽泡充分扩散,从而使换热得到强化。     

利用矩形金属周期阵列实现局域电场的增强和共振波长的可控

基于表面等离激元共振(SPR)的原理,设计了一种具有矩形凹槽周期阵列微结构的金属增强基底。利用有限元方法对基底表面附近电场的分布进行了理论模拟分析,结果表明在SPR共振情况下,其凹槽微结构坑口处可得到强局域场,局域电场强度E_max／E₀可达20。通过改变结构的周期、凹槽长度l、宽度w以及环境介质,SPR共振峰发生规律性的移动,波长覆盖范围为500～1 000 nm。入射光沿x方向偏振的情况下,随着结构x方向周期P_x的增加,SPR共振峰明显红移。当入射光波长与P_x相当时,观察到凹槽内局域电场突然减小的现象。这是由于满足了波矢匹配条件,传播型SPP被激发导致的。改变凹槽长度l,发现共振波长随l的增加红移,近似呈线性关系。环境介质折射率的增加也会引起共振峰的红移。而凹槽宽度w的增加将导致其蓝移。这种规律性的移动为实现共振波长的调控提供了途径。受Jain研究报道的启发,矩形凹槽结构可以等效为两对偶极耦合模型的组合,从而解释SPR共振峰随结构参数变化而发生的移动。     

Design of a sector bowtie nano-rectenna for optical power and infrared detection

We designed a sector bowtie nanoantenna integrated with a rectifier (Au−TiO_x−Ti diode) for collecting infrared energy. The optical performance of the metallic bowtie nanoantenna was numerically investigated at infrared frequencies (5−30 μm) using three-dimensional frequency-domain electromagnetic field calculation software based on the finite element method. The simulation results indicate that the resonance wavelength and local field enhancement are greatly affected by the shape and size of the bowtie nanoantenna, as well as the relative permittivity and conductivity of the dielectric layer. The output current of the rectified nano-rectenna is substantially at nanoampere magnitude with an electric field intensity of 1 V/m. Moreover, the power conversion efficiency for devices with three different substrates illustrates that a substrate with a larger refractive index yields a higher efficiency and longer infrared response wavelength. Consequently, the optimized structure can provide theoretical support for the design of novel optical rectennas and fabrication of optoelectronic devices.     

基于近红外高光谱成像及信息融合的小麦品种分类研究

高光谱成像技术因具有图谱合一的特点在作物品种鉴别方面具有较大潜力,但目前研究大多只提取利用了光谱信息,对图像信息没有进行有效利用。本文利用近红外高光谱成像仪采集了强筋、中筋、弱筋3个类型共计6个品种的单粒小麦种子高光谱图像,提取了长、宽、矩形度、圆形度、离心率等12个形态特征,并对图像中的胚乳和胚区域进行分割建立掩膜,提取了胚乳和胚区域的平均光谱信息。采用PLSDA和LSSVM方法建立基于图像信息的判别模型,结果表明强筋、弱筋两者二分类的识别率能达到98%以上,强筋、中筋两者二分类的识别率只能达到74.22%,说明近红外高光谱图像的形态信息能够反映品种间差异,但单独利用图像信息进行分类时准确度可能欠佳。采用SIMCA,PLSDA和LSSVM方法建立了胚乳和胚区域光谱信息的多分类模型,胚乳区域的分类效果较胚区域略好,说明籽粒不同部位的形状差异会影响分类效果。进一步融合光谱信息和图像信息,采用SIMCA,PLSDA和LSSVM方法建立融合模型,识别率较单独的图像或光谱信息模型均略有提升,PLSDA方法从原来的96.67%提升到98.89%, 表明充分挖掘高光谱图像所包含的形态特征和光谱特征可有效提高分类效果。     

不同结构绝对光栅尺的误码机制研究

针对光栅尺具有断电位置复位、无累计误差、高精度优点,在光学隔振平台上分别建立开放式和封闭式绝对光栅尺实验系统,绝对光栅尺采用图像识别原理,以气浮直线电机ArotechABL1500为参考对象,使用激光干涉仪RENISHAW XL-80校核精度,研究不同结构绝对光栅尺的误码特点及原因。通过对比实验及研究分析,表明封闭式绝对尺相对于开放式绝对尺的误码率要高,开放式绝对式光栅尺的误码率为3%,封闭式绝对式光栅尺的误码率为8%。     

Rough terrain profiling using digital image correlation

Road profiling is an important aspect of vehicle dynamics simulations especially over rough terrains. The accurate measurement of rough terrains allows for more accurate multi body simulations. Three dimensional road profiles are usually performed by utilising a line scan sensor which measures several points lateral to the road. The sensors range from simple road following wheels to LiDAR sensors. The obtained line scans are longitudinally stitched together using the orientation and position of the sensor to obtain a full three dimensional road profile. The sensor’s position and orientation therefore needs to be accurately determined in order to combine the line scans to create an accurate representation of the terrain. The sensor’s position and orientation is normally measured using an expensive inertial measurement unit or Inertial Navigation System (INS) with high sensitivity, low noise and low drift. This paper proposes a road profiling technique which utilises stereography, based on two inexpensive digital cameras, to obtain three-dimensional measurements of the road. The system negates the use of an expensive INS system to determine orientation and position. The data sets also require subsampling which can be computationally expensive. A simple subsampling routine is presented which takes advantage of the structure of the data sets to significantly speed up the process.     

Morphology and dynamics of a crack front propagating in a model disordered material

We present an experiment on the morphology and dynamics of a crack front propagating at the interface between an elastomer and a glass slide patterned with a prescribed distribution of defects. Regimes of high and low pinning strength are explored by changing the fracture energy contrast of the defects. We first analyze the roughness of crack fronts by measuring their typical amplitude in real and Fourier space. Irrespective of the pinning regime, no well defined self-affine behavior is found which may be explained by the emergence of an intermediate lengthscale between the defect size and the sample size. Then, we show that the dynamics at high fracture energy contrast results in rapid jumps alternating with periods of arrest. The distributions of speeds, displacements and waiting times are found to have an exponential decay which is directly related to the distribution of distances between defects along the direction of propagation.     

Integral treatment for forced convection heat and mass transfer of nanofluids over linear stretching sheet

An integral treatment is proposed for the analysis of the forced convection flow of a nanofluid over a stretching sheet.The obtained results agree well with the numerical results.The results of the presented solution provide an analytic solution,which can be conveniently used in engineering applications.Four types of nanoparticles,i.e.,alumina（Al₂O₃）,silicon dioxide（SiO₂）,silver（Ag）,and copper（Cu）,dispersed in the base fluid of water are examined.The analytical results show that an increase in the volume fraction of nanoparticles increases the thickness of the thermal boundary layer.The reduced Nusselt number is a decreasing function of the volume fraction of nanoparticles.     

Study on local topology model of low/high streak structures in wall-bounded turbulence by tomographic time-resolved particle image velocimetry

The relationship between the bursting event and the low/high-speed streak in the logarithmic law (log-law) region of a turbulent boundary layer is investigated. A tomographic time-resolved particle image velocimetry (TRPIV) system is used to measure the instantaneous three-dimensional-three-component (3D-3C) velocity field. The momentum thickness based Reynolds number is about 2 460. The topological information in the log-law region is obtained experimentally. It is found that the existence of the quadrupole topological structure implies a three-pair hairpin-like vortex packet, which is in connection with the low/high-speed streak. An idealized 3D topological model is then proposed to characterize the observed hairpin vortex packet and low/high-speed streak.