线宽误差对菲涅耳透镜衍射效率的影响

基于标量衍射理论,首先得出存在线宽误差情况下4阶菲涅耳透镜衍射效率的解析式;并以 4阶、8阶和16阶菲涅耳透镜为例,进行计算机模拟计算并系统分析线宽误差对菲涅耳透镜衍射效率的影响。通过实验测量16阶菲涅耳透镜的线宽误差,分析其对16阶菲涅耳透镜衍射效率的影响。模拟计算结果对多阶菲涅耳透镜的制作提供重要的理论指导。     

表面反射对菲涅耳透镜的影响

使用薄膜沉积法制作16阶菲涅耳透镜,用它代替常规的光学透镜可实现系统的轻量化,小型化,并增加系统设计的自由度,在标量衍射理论的基础上,应用菲涅耳公式和傅里叶变换分析SiO2薄膜和基底的表面反射对菲涅耳透镜－1级衍射效率的影响,结果表明表面反射对菲涅耳透镜的成像质量影响较大,可以通过蒸镀增透膜来减小这种影响。     

衍射微透镜列阵在Shack-Hartmann波前传感器中的应用

菲涅耳衍射微透镜列阵是目前广泛应用的衍射光学元件之一,它是基于衍射原理,由计算机设计,并通过微细加工技术制作成的.本文介绍了8相位台阶菲涅耳衍射微透镜列阵的制作方法,并描述了一个用16×16微透镜列阵形成的小型 Shack-Hartmann 波前传感实验系统,用该系统可对入射波前进行测量和重建.     

菲涅耳微透镜列阵衍射效率的测试与分析

归纳了目前二元位相型菲涅耳微透镜列阵衍射效率测试中所用各种衍射效率的不同定义，提出规范定义的建议。并设计了测量衍射效率的系统，方法简单易行，适于测试具有微小单元尺寸的菲涅耳微透镜列阵的衍射效率。     

菲涅耳微透镜行列阵衍射效率的测试与分析

归纲了目前二元位相型菲涅耳微透镜列阵衍射效率测试中所用各种衍射效率的不同定义，提出规范定义的建议。并设计了测量衍射效率的系统，方法简单易行，适于测试具有微小单元尺寸的菲涅耳微透镜列阵的衍射效率。     

基于紫外纳米压印的菲涅耳透镜制作

针对传统聚光系统中菲涅耳透镜成本较高并且光强分布不均匀的弊端,提出了利用紫外纳米压印技术制作菲涅耳透镜的方法.利用几何光学的光线追迹理论,设计了菲涅耳透镜模具.采用自行研制的紫外纳米压印系统对模具进行压印,紫外曝光后制得薄膜菲涅耳透镜.在太阳光下进行了测试,测试结果表明,低成本、高聚光倍数和光强分布均匀的菲涅耳透镜是可以实现的.     

基于紫外纳米压印的菲涅耳透镜制作

针对传统聚光系统中菲涅耳透镜成本较高并且光强分布不均匀的弊端,提出了利用紫外纳米压印技术制作菲涅耳透镜的方法.利用几何光学的光线追迹理论,设计了菲涅耳透镜模具.采用自行研制的紫外纳米压印系统对模具进行压印,紫外曝光后制得薄膜菲涅耳透镜.在太阳光下进行了测试,测试结果表明,低成本、高聚光倍数和光强分布均匀的菲涅耳透镜是可以实现的.     

大数值孔径衍射透镜的优化设计方法

本文针对大数值孔径衍射透镜工艺制作难的问题,以菲涅耳衍射透镜为例,研究了相位匹配原理并提出了一种优化设计二元大数值孔径衍射透镜的方法。在菲涅耳衍射透镜原理的基础上,确定了优化设计多相位台阶衍射透镜的结构参数,并给出了一个设计实例,最后对结果元件的衍射效率进行了分析与讨论。     

液晶波前校正器特性研究

利用808 nm大功率连续激光器研究了液晶的光功率承受特性结果表明,当功率密度为133 W/cm2时,液晶还能保持原有的光学调制特性,而且可以长时间稳定工作测定了液晶的波长色散特性,发现,随着波长的增加Δn值逐渐减少,近紫外300~400 nm波段Δn变化47％,而在400~780 nm变化量为28％,在780~900 nm Δn变化了2％还研究了温度对液晶波前校正器衍射效率的影响,随着温度的升高Δn逐渐减小,当温度从10℃升到90℃时,对于16台阶菲涅耳透镜,衍射效率下降了70%;但当温度在20℃变化10℃时,对4台阶菲涅耳透镜衍射效率最大变化量为1.7%,而对16台阶菲涅耳透镜,衍射效率降低了1.2%.     

高衍射效率闪耀全息透镜

提出一种制作位相全息透镜－闪耀全息透镜新设计，利用它可使位相全息透镜的位相分布类似位相菲涅耳透镜，其衍射效率理论值可达９５％以上，但其制作过程要比位相菲涅耳透镜容易，文中给出了原理分析和实验验证，初步结果是令人满意的。     

室内可见光通信系统中菲涅尔透镜接收天线的设计研究

针对基于白光LED室内可见光无线光通信技术的应用需求, 设计了等齿距平面菲涅尔透镜. 相比常规透镜光接收天线, 菲涅尔透镜具有聚焦能力强、焦距短、透镜厚度薄、重量轻、成本低等优点. 利用Trace pro软件对设计进行了模拟仿真, 分析了透镜不同设计参数对接收天线光学增益、光学效率及光斑尺寸的影响, 讨论了透镜在平行光斜入射时的会聚情况. 结果表明, 平面点聚焦菲涅尔透镜的光学效率可达92.1%, 适用于小视场、高增益接收光学系统前端.     

Recording of geometric phase elements based on liquid crystal polymers

A technique is developed for recording the centrally-symmetric liquid crystal phase plates with the anisotropic orientation of molecules providing a smooth change of the optical axis in a thin film of liquid crystal polymer. The technique enables one to record the elements with the cylindrically-symmetric and planar-symmetric distributions. Such structures can be used to develop the optical elements with the new functional possibilities. Using the developed techniques, the polarization-sensitive Fresnel lens is realized which is functioning either as a collecting or as a scattering lens for the light beams with the orthogonal circular polarizations.     

Focal shift of focused truncated random electromagnetic beams

The focal shifts of focused truncated random electromagnetic beams are investigated. Based on the complex Gaussian expansion method for a hard-edged aperture function, the analytical propagation formula of cross-spectral density matrix for a random electromagnetic beam focused by an optical system with a thin lens and a circular aperture is derived. The Fresnel numbers related with the beam and system parameters are defined and used to examine focal shifts. The dependence of the focal shifts on the different Fresnel numbers and polarization distribution are discussed in detail with numerical examples.     

用于光伏系统新型菲涅耳线聚焦聚光透镜设计

根据边缘光线原理,优化设计太阳电池及光伏系统的菲涅耳线聚焦聚光透镜.设计光学聚光率为18×,可用于空间、地面光伏系统的聚光系统.分析了其集光角特性,表明该菲涅耳线聚焦棱镜具有大的集光角(±7°).     

Fresnel diffraction model for the point spread of a laser light profile microscope (LPM)

Light profile microscopy is a new method of thin film imaging in which a microscope forms an image of a laser beam intersecting a thin layer along its depth axis. Emission (luminescence or scatter) from the beam volume is transmitted through a cross sectional view surface and used by a microscope to form an image of the beam propagating through the sample. Fresnel diffraction theory is used in this work to derive a point spread model for a microscope operating in this configuration, assuming that the emission from the source beam is completely incoherent. This theory illustrates the dependence of the image resolution on the laser beam radius, which determines the effective thickness of the system object seen by the microscope. The effect of relative displacement of the source beam center from the object plane of the microscope is evaluated. The present theory shows that radial resolution may be evaluated by means of an object focus envelope and a focal energy distribution computed for the objective lens. PACS 42.25Fx; 07.60Pb     

Optically controllable and focus-tunable Fresnel lens in azo-dye-doped liquid crystals using a Sagnac interferometer

This study demonstrates a tunable Fresnel lens in an azo-dye-doped liquid crystal (ADDLC) film using an interference technique. One Fresnel-patterned green beam using a Sagnac interferometer irradiated the UV-illuminated ADDLC cell, yielding a concentric zone plate distribution with homeotropic and isotropic structures in bright and dark regions of the green interference pattern. The proposed Fresnel lens is polarization independent, focus tunable, and the focusing efficiency of the device can be optically controlled.     

Polarization-independent and high-diffraction-efficiency Fresnel lenses based on blue phase liquid crystals

A polarization-independent and high-diffraction-efficiency Fresnel lens is developed based on blue phase liquid crystals (BPLCs). The optically isotropic characteristic of BPLCs is used to produce a polarization-independent Fresnel lens. The small optical phase shift of BPLCs that is induced by the Kerr effect is sufficient for the BPLC Fresnel lens to have high theoretical and experimental diffraction efficiencies of 41% and ～34%, respectively. An electrically erasable memory effect in the focusing diffraction at an electric field E>4.44?V/μm is observed. The electro-optical properties of the BPLC Fresnel lens are analyzed and discussed.     

新型菲涅尔线聚焦聚光太阳电池组件研究

以聚甲基丙烯酸甲脂为材料,采用热压成型工艺加工成型线聚焦菲涅尔聚光透镜(8×),可用于空间、地面光伏系统太阳电池组件的聚光系统,并对在其聚光条件下,太阳电池的电流电压特性进行测试,结果表明,该菲涅尔线聚焦棱镜能有效提高太阳电池的单位输出功率.模具的机械加工精度和光学抛光精度低,是造成其部分聚光率损失的原因.     

Ultrasonic Fresnel lenses,part II — cylindrical lenses

Ultrasonic Fresnel lenses were investigated in general in a previous publication, together with the bandwidth limitations of spherical Fresnel lenses. It was indicated then that cylindrical Fresnel lenses showed a more favourable frequency response and in the present paper this is borne out. The calculated frequency response of lenses with up to 16 steps is plotted with the values measured on a three-step lens in good agreement.