1 西安邮电大学电子工程学院,陕西 西安 710121
2 中国电子科技集团公司第三十九研究所,陕西 西安 710065
3 西安电子科技大学物理学院,陕西 西安 710071
基于广义洛伦兹-米理论,研究两个聚焦的高斯光束沿着任意方向入射单轴各向异性涂层球的散射特性。基于球矢量波函数的正交特性,推导得到双高斯光束的球矢量波函数展开表达式。通过引入傅里叶变换,求解得到各向异性涂层区域内的电磁场展开式,将涂层球各区域的电磁场用球矢量波函数展开,再结合边界条件,得到沿任意方向传播的双高斯光束入射到涂层球的散射系数和雷达散射截面。数值模拟了雷达散射截面随散射角变化的分布,将单轴各向异性涂层球退化为单轴各向异性球时的散射结果与文献进行对比,结果十分吻合。分析双光束的入射角、粒子内半径、涂层厚度与内半径的比值、电和磁各向异性对散射强度及其散射角分布的影响。该理论和数值分析能够为激光对涂层颗粒的探测、散射以及光学操作提供有益帮助。
散射 球矢量波函数 双光束 单轴各向异性涂层球 光学学报
2023, 43(23): 2329001
Author Affiliations
Abstract
1 School of Electrical, Computer and Energy Engineering, Arizona State University, Tempe, Arizona 85281, USA
2 Center for Photonic Innovation, Arizona State University, Tempe, Arizona 85281, USA
3 Biodesign Center for Molecular Design & Biomimetics, Arizona State University, Tempe, Arizona 85281, USA
Flat optics presents a new path to control the phase, amplitude, and polarization state of light with ultracompact devices. Here we demonstrate chip-integrated metasurface devices for polarization detection of mid-infrared light with arbitrary polarization states. Six high-performance microscale linear and circular polarization filters based on vertically stacked plasmonic metasurfaces (with total thickness ) are integrated on the same chip to obtain all four Stokes parameters of light with high accuracy. The device designs can be tailored to operate at any wavelength in the mid-infrared spectral region and are feasible for on-chip integration with mid-infrared (mid-IR) photodetectors and imager arrays. Our work will enable on-chip mid-IR polarimeters and polarimetric imaging systems, which are highly desirable for many applications, such as clinic diagnosis, target detection, and space exploration.
Photonics Research
2019, 7(9): 09001051
Author Affiliations
Abstract
Key Laboratory of Special Display Technology of the Ministry of Education, National Engineering Laboratory of Special Display Technology, National Key Laboratory of Advanced Display Technology, Academy of Photoelectric Technology, Hefei University of Technology, Hefei 230009, China
Raman spectrum, as a kind of scattering spectrum, has been widely used in many fields because it can characterize the special properties of materials. However, Raman signal is so weak that the noise distorts the real signals seriously. Polynomial fitting has been proved to be the most convenient and simplest method for baseline correction. It is hard to choose the order of polynomial because it may be so high that Runge phenomenon appears or so low that inaccuracy fitting happens. This paper proposes an improved approach for baseline correction, namely the piecewise polynomial fitting (PPF). The spectral data are segmented, and then the proper orders are fitted, respectively. The iterative optimization method is used to eliminate discontinuities between piecewise points. The experimental results demonstrate that this approach improves the fitting accuracy.
Raman spectrum piecewise polynomial fitting baseline correction elimination of discontinuities Photonic Sensors
2018, 8(4): 04332
1 西安电子科技大学 物理与光电工程学院,陕西 西安 710071
2 西安工业大学 光电工程学院,陕西 西安 710021
本文基于时域有限差分算法,研究了微粗糙光学表面与多个镶嵌粒子的差值场光散射问题。将光学基片视为微粗糙光学表面,利用蒙特卡洛方法解决了光学表面存在粗糙度的问题,并将差值场散射理论加入到计算模型中,更好地分析了缺陷粒子的散射特性,将计算区域划分成上下两个半空间,建立了微粗糙光学表面与镶嵌多体粒子复合散射模型,并与矩量法计算结果比较验证了理论的有效性。运用此模型分析了入射角、镶嵌粒子尺寸、粒子间距、粒子个数等物性特征对微粗糙光学表面与镶嵌多体粒子差值散射场的影响。实验结果表明:在一定激光入射角下,以相同回波探测角度间距20°对光学表面进行测量能够有效地检测出缺陷粒子。本文结果为光学无损检测、光学薄膜、微纳米结构的光学性能设计等提供了理论依据和技术支持。
差值散射场 多镶嵌粒子 半空间时域有限差分法 微粗糙光学表面 difference scattering field multiple inlaid particles half-space finite difference time domain(FDTD) slightly rough optical surface
Author Affiliations
Abstract
1 Department of Biomedical Engineering School of Medicine, Tsinghua University Beijing 100084, P. R. China
2 Center for Biomedical Imaging Research Tsinghua University Beijing 100084, P. R. China
A compact volume holographic imaging (VHI) method that can detect fluorescence objects located in diffusive medium in spectral selective imaging manner is presented. The enlargement of lateral field of view of the VHI system is realized by using broadband illumination and demagni fication optics. Each target spectrum of fluorescence emitting from a diffusive medium is probed by tuning the inclination angle of the transmission volume holographic grating (VHG). With the use of the single transmission VHG, fluorescence images with different spectrum are obtained sequentially and precise three-dimensional (3D) information of deep fluorescent objects located in a diffusive medium can be reconstructed from these images. The results of phantom experiments demonstrate that two fluorescent objects with a sub-millimeter distance can be resolved by spectral selective imaging.
Volume holographic grating diffusive medium fluorescence molecular imaging Journal of Innovative Optical Health Sciences
2016, 9(2): 1650010
1 南华大学电气工程学院, 湖南, 衡阳 421001
2 中国科学院大连化学物理研究所分子反应动力学国家重点实验室, 辽宁 大连 116023
利用三态模型和含时波包法,研究了强飞秒泵浦-探测激光场中延时对非绝热耦合NaI分子光电子能谱、各态布居的影响。结果表明波包在势能面上做周 期性运动,周期约为1000 fs,延时为200 fs时波包第一次到达交叉区域并分裂成两部分,800 fs时波包再次返回交叉区域发生分裂。波包的周期性运动导致光电 子能谱谱峰位置的周期性变化,波包在交叉区域的分裂情况影响了各态布居分布。调节泵浦-探测延时可实现对波包运动的控制及态布居的选择性分布,研究 结果为实验上实现分子的光控制及量子操控过程提供了一定参考。
光谱学 态布居 含时波包法 光电子能谱 波包运动 spectroscopy state population time-dependent wave packet method photoelectron spectra wave packet motion
利用时域有限差分法分别模拟计算了X型金纳米结构和L型纳米天线以及由这两种结构所组成的金纳米交叉结构的消光光谱和近场分布, 并研究了金纳米交叉结构对周围介质折射率变化的敏感性。研究结果表明, X型金纳米结构在入射光正入射时能激发起偶极共振模式而在斜入射时可以同时激发起偶极和四极共振模式。L型纳米天线的成键和反成键共振模式的产生可以通过改变入射光偏振方向进行控制。此外入射光偏振方向变化时在金纳米交叉结构中都可产生法诺共振效应, 由于激发起法诺共振效应, 金纳米交叉结构的光谱线型更加精细, 传感质量因子可达到12.5, 这些结果可指导金纳米交叉结构作为纳米光子器件用于生物传感方面。
局域表面等离子体共振 金纳米交叉结构 时域有限差分法 法诺共振 折射率敏感度 localized surface plasmonic resonance gold nanocross structure finite-difference time-domain method fano resonance refractive-index sensitivity
Author Affiliations
Abstract
1 Department of Biomedical Engineering, School of Medicine, Tsinghua University, Beijing 100084, China
2 Tsinghua-Peking Center for Life Sciences, Beijing 100084, China
3 Center for Biomedical Imaging Research, Tsinghua University, Beijing 100084, China
In order to improve the reconstruction accuracy in fluorescence molecular tomography (FMT), a common approach is to increase the number of fluorescence data or projections. However, this approach consumes too much memory space and computational time. In this Letter, a data compression strategy that involves the removal of the redundant information from both intra- and inter-projections is proposed to reduce the dimension of the FMT inverse problem. The performance of this strategy is tested with phantom and in vivo mouse experiments. The results demonstrate that the proposed data compression strategy can accelerate the FMT reconstruction nearly tenfold and almost without any quality degradation.
100.3010 Image reconstruction techniques 100.3190 Inverse problems 260.2510 Fluorescence Chinese Optics Letters
2015, 13(7): 071002
1 北华大学电气信息工程学院, 吉林 吉林市 132021
2 中国科学院长春光学精密机械与物理研究所, 吉林 长春 130033
为了解决变压器气相色谱分析法故障诊断中存在的操作繁琐、消耗待测气体和载气、检测周期长等缺点, 提出了利用光声光谱技术检测变压器油中CH4, C2H2, C2H4, C2H6, H2五种特征气体的含量并计算C2H2/C2H4, CH4/H2, C2H4/C2H6三对比值数据。将五种SVM类型和四种核函数采用交叉组合建立20种不同的支持向量机模型, 并采用启发式算法对于惩罚因子c和g的取值进行参数寻优, 以建立变压器故障诊断准确率最高、最快运行速度的支持向量机模型。启发式算法主要对比研究了粒子群算法和遗传算法在寻优精度与速度上的效果。仿真实验结果表明C-SVC模型、RBF核函数、遗传算法寻优构成的支持向量机模型对变压器故障的诊断准确率最高, 测试集达到97.5%, 训练集达到98.333 3%, 并且遗传算法的寻优速度快于粒子群算法2倍左右。该方法具有操作简单、非接触性测量、不消耗载气、检测周期短、稳定性和灵敏度高等优点。可以代替传统的气相色谱分析法进行变压器故障诊断, 满足变压器故障诊断的实际工程需要。
光声光谱 支持向量机 粒子群算法 遗传算法 变压器 故障诊断 Photoacoustic spectroscopy SVM Particles swarm optimization Genetic algorithm Power transformer Fault diagnosis
1 中国科学院西安光学精密机械研究所 瞬态光学与光子技术国家重点实验室, 西安 710119
2 中国科学院大学,北京 100049
设计了一台二极管泵浦的具有新型四通泵浦结构及接触式水冷装置的Yb∶YAG薄片激光器.激光泵浦源采用中心波长为940 nm的二极管激光器,利用多模光纤进行耦合输出.YAG晶体Yb3+离子掺杂浓度为10%,几何尺寸为直径10 mm,厚度500 μm.激光晶体的散热装置采用自来水直接冷却,自来水通过铜热沉中打通的V型槽与薄片晶体直接接触.泵浦耦合系统采用聚焦透镜和一对直角棱镜的组合实现四通泵浦,聚焦透镜规格为直径50 mm,焦距50 mm.模拟了谐振腔的稳定性及不同腔长条件下所对应的激光光斑半径,设计了不同腔型的Yb∶YAG薄片激光器.在F-P腔中采用透过率为5%的输出耦合镜,获得了最高功率为3.28W的1 031 nm连续激光输出,光束质量因子M2x=1.79, M2y=1.86,斜效率为20.5%.
激光器 固体激光器 薄片激光器 直接水冷 泵浦结构设计 激光晶体 Lasers Solid state laser Thin disk laser Direct water cooling Pump structure design Laser crystal Yb∶YAG Yb∶YAG 光子学报
2014, 43(10): 1014001
