共查询到19条相似文献,搜索用时 390 毫秒
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对近场分布式光度测量方法及测量机理进行研究,基于自主搭建的近场光源发光特性测量装置采集平面光源不同方向的亮度图像,分析了近场光度参量之间的转换关系及亮度数据处理方法,最终实现了近场分布式平面光源空间光强分布测量。通过构建平面光源发光模型,基于光度学和几何光学原理分析发光平面各个方向的光线分布,完成对光源不同方向的发光状态表征。与远场测量相比,所提近场分布式测量方法结果与远场配光曲线吻合良好,在所采用成像式亮度计亮度相对误差优于6.51%的情况下,所测得的光强相对误差小于8.38%,0°配光曲线匹配指数高达98.33%,验证了所提方法在近场光度测量中的有效性。 相似文献
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水声共形阵辐射指向性计算方法及其实验验证 总被引:2,自引:0,他引:2
用边界元方法,给出了水声发射换能器共形阵各阵元的单元指向性以及基阵的自然波束指向性和束控波束指向性。首先建立了换能器共形阵的边界元模型,并根据换能器结构和声传播介质建立了模型的边界条件,计算了其辐射指向性。然后在消声水池中对共形阵各阵元以及基阵的辐射指向性进行了实验测量。将理论计算结果与实验测量结果进行了对比,二者吻合得比较好。研究结果表明:基于边界元方法建立的模型及计算方法,对基阵的辐射指向性进行理论计算和预报是可行的。 相似文献
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本文中介绍了一个可以实现大角度波束扫描的宽带平面声基阵,设计了纵向振动与换能器前盖板弯曲振动相复合的宽带换能器作为基元,保证了基阵具有较好的宽带性能。针对基元的自然指向性难以满足平面阵进行大角度波束扫描的要求,本文中采用通道型橡胶反声障板技术来拓宽阵上换能器的单元指向性,从而实现平面声基阵的大角度、宽带波束扫描。在有限元和边界元进行优化设计的基础上,制作了实验样阵。测试数据表明:在工作频段内换能器响应起伏不超过3 dB,12 kHz时阵上基元指向性达到了140°,基阵-3 dB波束覆盖范围可以达到144.4°,最大旁瓣不超过30%。 相似文献
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从平面近场扫描数据处理原理和平面天线阵方向图理论出发,分析了相对于平面近场扫描平面斜置的平面天线阵方向图.基于斜置平面天线阵的空间结构关系,选择阵面旋转轴与阵面法线形成的平面为性能评估考察平面,发展了一种快速计算性能评估平面方向图的方法.得出该平面与平面近场扫描坐标系单位方向球相交曲线的轨迹参数方程.利用快速傅里叶变换技术,计算出斜置平面天线阵平面近场扫描空间方向图,在此基础上结合轨迹参数方程和二维插值方法解出对应该性能评估平面的方向图数据.数值仿真和实际应用结果表明该分析结论和方法的可靠性与实用性. 相似文献
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为了解决高功率激光装置光束质量诊断系统的自验证问题,研究了基于空间相位调制的径向剪切干涉法综合诊断光束质量的实验应用。该方法理论上只需一台干涉仪且从单幅干涉图中获取光束的近场、相位和远场分布信息。实验结果表明,目前可以得到高分辨率的相位分布,由测量近场和相位恢复出的远场同CCD直接测量得到的远场形态相同,环围能量比曲线相当吻合,不足之处在于只能提取近场较低空间频率成分,还达不到CCD直接测量的空间分辨水平。 相似文献
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Near-field radiative heat transfer between two plane surfaces with one having a dielectric coating 总被引:1,自引:0,他引:1
The effect of a dielectric coating on the near-field radiative heat transfer between two plane surfaces is numerically studied in the framework of the fluctuational electrodynamics. The dielectric coating is assumed to be a SiC or SiO2 film, which is on top of the emitter. The results show that the near-field radiative flux between the plane surfaces can be either diminished or enhanced by the dielectric coating, depending on the thermal radiative properties of the emitter and the receiver. Furthermore, the dielectric coating effect on the near-field radiative flux can be very different from that on the far-field radiative flux. Detailed analysis on the variations of the TE- and TM-wave components of the radiative flux by adding the dielectric coating is provided, along with the physical mechanisms that account for these changes. Dielectric coatings such as SiC and SiO2 films are widely seen in microelectronic structures and nanofabrication devices. The results obtained in this work should be valuable for further study and nanotechnological applications of near-field radiative heat transfer. 相似文献
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本文提出一种计算惠更斯积分的新方法,并利用它来研究线源声参量阵。首先将点源函数展开为一个算符对平面波函数的运算,经过计算证明,如果将这个算符对参量阵远场解进行运算,得到的结果即为线源参量阵辐射场的解。其次证明,参量阵的夫琅和费远场解及菲涅耳修正解都可由本文导出,并且证明,菲涅耳修正只是对半束宽角以外的场有贡献。本文还计算了截断参量阵的辐射场,结果表明,这种阵的近场指向性随距离的减小而变尖锐。并且可以预料,实际参量阵辐射场的性质取决于下述三个场参量:kRsin2θ,βR和R1
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Hyeong Sick Ju Author Vitae 《Applied Acoustics》2010,71(9):793-800
A parametric speaker is a device for generating and focusing highly directional sound beams. It is essentially a by-product that comes with the nonlinearity of ultrasound. It is noteworthy that this directional beam was controlled and utilized mostly for far-field applications in the past. We empirically study the directivity and attenuation characteristics of the parametric loudspeaker in the near-field where we desire to use it. Physical parameters for experiments are imported from a theoretical model based on the far-field approximation. The findings are that increases in aperture size and modulation frequency cause higher directivity, but have more than twice the beamwidth of the far-field approximation. The attenuation also does not obey the inverse-square law which describes far-field spreading from acoustic sources. The results conclusively explain a series of formation and attenuation of the virtual sound sources and define limitations of use in the near-field. 相似文献
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Mathieu Francoeur M. Pinar Mengüç 《Journal of Quantitative Spectroscopy & Radiative Transfer》2008,109(2):280-293
The objective of this paper is to discuss the role of fluctuational electrodynamics in the context of a generalized radiative heat transfer problem. Near-field effects, including the interference phenomenon and radiation tunneling, are important for applications to nanostructures. The classical theory of radiative transfer cannot be readily applied as the feature size approaches the dominant wavelength of radiative emission. At all length scales, however, propagation of radiative energy is properly represented by the electromagnetic wave approach, which requires the solution of the Maxwell equations. Fluctuational electrodynamics provides a model for thermal emission when solving a near-field radiation heat transfer problem, and the fluctuation-dissipation theorem provides the bridge between the strength of the fluctuations of the charges inside a body and its local temperature. This paper provides a complete and systematic derivation of the near-field radiative heat flux starting from the Maxwell equations. An illustrative example of near-field versus far-field radiation heat transfer is presented, and the length scale for transition from near- to far-field regime is discussed; the results show that this length scale can be as large as three times than predicted from Wien's law. 相似文献
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J. Muller 《Journal of Quantitative Spectroscopy & Radiative Transfer》2011,112(7):1162-1169
The detection of surface waves through scanning near-field optical microscopy (SNOM) is a promising technique for thermal measurements at very small scales. Recent studies have shown that electromagnetic waves, in the vicinity of a scattering structure such as an atomic force microscopy (AFM) tip, can be scattered from near to far-field and thus detected. In the present work, a model based on the finite difference time domain (FDTD) method and the near-field to far-field (NFTFF) transformation for electromagnetic waves propagation is presented. This model has been validated by studying the electromagnetic field of a dipole in vacuum and close to a dielectric substrate. Then simulations for a tetrahedral tip close to an interface are presented and discussed. 相似文献
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Gianluca Geloni Evgeni Saldin Evgeni Schneidmiller Mikhail Yurkov 《Optics Communications》2007,276(1):167-179
In this paper, we couple synchrotron radiation (SR) theory with a branch of physical optics, namely laser beam optics. We show that the theory of laser beams is successful in characterizing radiation fields associated with any SR source. Both radiation beam generated by an ultra-relativistic electron in a magnetic device and laser beam are solutions of the wave equation based on paraxial approximation. It follows that they are similar in all aspects. In the space-frequency domain SR beams appear as laser beams whose transverse extents are large compared with the wavelength. In practical situations (e.g. undulator, bending magnet sources), radiation beams exhibit a virtual “waist” where the wavefront is often plane. Remarkably, the field distribution of a SR beam across the waist turns out to be strictly related with the inverse Fourier transform of the far-field angle distribution. Then, we take advantage of standard Fourier Optics techniques and apply the Fresnel propagation formula to characterize the SR beam. Altogether, we show that it is possible to reconstruct the near-field distribution of the SR beam outside the magnetic setup from the knowledge of the far-field pattern. The general theory of SR in the near-zone developed in this paper is illustrated for the special cases of undulator radiation. Using known analytical formulas for the far-field pattern and its inverse Fourier transform we find analytical expressions for near-field distributions in terms of far-field distributions. 相似文献
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E. Flück M. Hammer W.L. Vos N.F. van Hulst L. Kuipers 《Photonics and Nanostructures》2004,2(2):127-135
Photonic crystals form an exciting new class of optical materials that can greatly affect optical propagation and light emission. As the relevant length scale is smaller than the wavelength of light, sub-wavelength detection forms an important ingredient to obtain full insight in the physical properties of photonic crystal structures. Spatially resolved near-field measurements allow the observation of phenomena that remain hidden to diffraction-limited far-field investigations. Here, we present near-field investigations in both collection and illumination modes that highlight the power of local studies. We show how propagation losses are unambiguously determined and that light detected in far-field transmission can actually contain contributions from different, sometimes unexpected, local scattering phenomena. Simulations are used to support our findings. Furthermore, it is shown that local coupling of light to a thick three-dimensional photonic crystal is position-dependent and that the spatial distribution of the coupling efficiency itself is frequency-dependent. 相似文献
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近场扫描光学显微术中, 近场距离的检测和控制是需要解决的核心技术之一. 本文研究了基于DDS驱动的压电传感器, 在一个压电陶瓷片上, 电极被分成相同的两部分, 分别用于振动驱动和振幅检测. 近场扫描的光纤探针固定于此压电陶瓷片上. 振动驱动信号采用DDS, 在样品的远场时, 可以通过频率扫描得到误差在0.006 Hz以内的压电陶瓷片谐振频率驱动信号, 而当光纤探针处于样品的近场距离之内时, 压电陶瓷片的谐振频率偏离驱动信号频率, 振幅明显减小, 从而检测出近场距离. 高精度振动驱动源DDS和高灵敏度压电传感器的采用提高了检测灵敏度和工作稳定性. 相似文献