共查询到20条相似文献,搜索用时 513 毫秒
1.
Sihai Chen Xinjian Yi Hongchen Wang Luqin Liu Yingrui Wang 《International Journal of Infrared and Millimeter Waves》2002,23(5):705-710
Monolithic integration method has been demonstrated to increase the fill factor of the infrared focal plane arrays (IRFPA). Which is consists of 256×256 Pt-Si schottky barrier charge coupled devices(CCD) operation in 3-5m IR region. The relative silicon 256×256 element diffractive microlens arrays have been fabricated on the back side of the substrate of the IRFPA using binary optics technology. The aligning process between IRFPA and microlens arrays on each side of the substrate has been completed by IR mask aligner. The testing results show that the imaging quality is very good and the average optical response of the IR FPA is increased by a factor of 3.0, which is improved by about 25% compared with the hybrid integration method in the previous work. 相似文献
2.
Yi Li Xinjian Yi Liping Cai 《International Journal of Infrared and Millimeter Waves》2000,21(9):1417-1425
Diffractive microlens arrays can completely collect the light at the focal plane and concentrate it into a smaller spot size on the detector plane, the photodetector area can be substantially reduced. Increased gamma radiation hardening and noise reduction result from the decrease in photodetector sensitive area. The diffractive microlens arrays have been designed by considering the correlative optical and processing parameters for PtSi focal plane array. They have been fabricated on the backside of PtSi focal plane array chip by successive photolithography and Ar+ ion-beam-etching technique. The alignment of microlens array with PtSi focal plane array was completed by a backside aligner with IR light source. The practical processes and fabrication method are discussed. The performance parameters of PtSi FPA with diffractive microlens array are presented. 相似文献
3.
An operation model of a negative microlens array is demonstrated. The array consists of two kinds of materials with different refractive indices. First of all, a positive microlens array with 256×256 elements serving as a pattern is fabricated by argon ion beam etching on the quartz. The diameter and average corona height of the element are 28 and 0.638 μm, respectively. The spacing between two neighboring elements is 2 μm. In the second phase, after being coated by epoxy, the positive microlens array pattern is spun and baked, leading to a complex negative microlens array. Surface stylus measurement shows that the surface of the positive quartz microlens array is smooth and uniform. Focal length measurement of the negative microlens array indicates that the focal length region with −731±3 μm is in good agreement with the theoretical calculation value of −729 μm. 相似文献
4.
5.
6.
In this paper, we develop an integration technology between Si microlens and 256(H)×256(V) element PtSi Schottky-barrier infrared charge coupled device (IR-CCD) to improve the optical responsivity of CCD sensor. The refractive microlenses with the pixel size of approximately 28×28 μm2 is directly fabricated on the backside of CCD substrate to focus the incident irradiation onto the active area. For the integration device the fill factor is improved by a factor of 2.1. As a result, the IR-CCD image sensors operating at 77 K indicate an approximate 0.06–0.4 increase in relative optical responsivity in the spectral range of from 1 to 5 μm. CCD imaging quality with microlens has been improved comparing to that without microlens to a great extent. 相似文献
7.
微透镜阵列反应离子束蚀刻传递研究 总被引:4,自引:0,他引:4
提出了一种微透镜阵列复制的新方法-反应离子束蚀刻法(RIBE)它在工作原理和参数控制等方面较传统的蚀刻方法有很大的先进性,能够实现蚀刻过程的精确控制,本文详细阐述了反应离子蚀刻过程中的蚀刻选择性的控制方法,通过对各种蚀刻参数的控制,最终实现了微透镜阵列在硅等红外材料上面形传递的深度蚀刻,口径φ100μm的F/2微透镜阵列在硅基底上的传递精度达1:1.03,无侧向钻蚀。 相似文献
8.
9.
针对目前红外焦平面光敏阵列中存在的占空比小、光能利用率低的实际问题,展开了正方形孔径球面微透镜阵列制作及其与红外焦平面阵列集成应用的研究.本文从红外焦平面光敏阵列特点入手,对比分析了正方形孔径相比于传统圆形孔径微透镜阵列在光能利用上的优势.提出正方形孔径微透镜阵列激光直写变剂量曝光制作技术,建立光刻胶曝光数学模型和正方形球面微透镜面型函数,以此为基础,编制直写设备变剂量曝光控制软件;利用长春理工大的学复合坐标激光直写系统和等离子刻蚀机进行相关工艺实验,制作了阵列256×256、单元尺寸40×40 μm2、球面半径60 μm、单元间距1 μm的红外石英微透镜阵列;并将其与相应阵列的碲-镉-汞红外光敏阵列进行集成.结果表明:微透镜的占空比达到95%,红外焦平面光能利用率从原来的60%提高到90% 以上.由此得出结论:变剂量曝光制作微透镜技术是可行的,正方形孔径球面微透镜阵列代替圆形孔径微透镜阵列,对于提高红外探测器的灵敏度、信噪比、分辨率等性能具备明显优势. 相似文献
10.
光学读出红外热成像系统中,焦平面阵列(FPA)反光板的初始弯曲降低了系统的光学检测灵敏度。针对FPA的设计制作,提出了两种降低其反光板初始弯曲的优化设计方案:减薄反光板上金层厚度和制作带加强筋的反光板。在理论分析的基础上,设计制作了单元尺寸为200μm的反光板金层减薄FPA,其反光板曲率半径提高至原来金层未减薄FPA的4.71倍,系统光学检测灵敏度提高了5.2倍;单元尺寸为60μm的反光板带加强筋FPA,其反光板曲率半径提高至原来没有加强筋FPA的4.29倍,系统光学检测灵敏度提高了1.18倍。实验验证了理论分析的结果。 相似文献
11.
Shih-Wei Yang Chern-Sheng Lin Shu-Hsien Fu Mau-Shiun Yeh Chingfu Tsou Teng-Hsien Lai 《Optics Communications》2012,285(6):1066-1074
This study attempted to develop a detection system for lens sag of the microlens array in real time using an optical automatic inspection framework to link with the computer through a camera. An image processing technique was applied to detect the spherical microlens array, and then, the results were compared.The system light source used laser light and applied CCD to collocate with the microscope array to form an automatic optical detection system for an optical interferometric microscope. It applied the principle of the Fizeau interferometer, illuminated the surface of microlens array, and formed the phase difference required by the interference of two lights through the laser light reflected by the reference plane and the surface of the microlens array, thus, forming an interference fringe.When the sag of the microlens was much longer than the wave length of the detection light source, the fringe would be densely distributed, thus, only a few central fringes were clear in the microscopic image. An image processing method was used to search the center of the interference fringe and a creative algorithm was utilized to obtain the lens sag of the microlens. As proved by the experiment, lens sag of 4 microlens arrays were detected in real time, with a minimum detection error of 0.08 μm, and a maximum detection error of 4 μm (error value 1 ~ 9%), according to different sample processes. This system featured a simple structure and is applicable to non-contact detection and detection of different-sized microlens arrays. 相似文献
12.
用于红外焦平面的正方形孔径球面微透镜阵列研究 总被引:1,自引:0,他引:1
针对目前红外焦平面光敏阵列中存在的占空比小、光能利用率低的实际问题,展开了正方形孔径球面微透镜阵列制作及其与红外焦平面阵列集成应用的研究.本文从红外焦平面光敏阵列特点入手,对比分析了正方形孔径相比于传统圆形孔径微透镜阵列在光能利用上的优势.提出正方形孔径微透镜阵列激光直写变剂量曝光制作技术,建立光刻胶曝光数学模型和正方形球面微透镜面型函数,以此为基础,编制直写设备变剂量曝光控制软件;利用长春理工大的学复合坐标激光直写系统和等离子刻蚀机进行相关工艺实验,制作了阵列256×256、单元尺寸40×40μm2、球面半径60μm、单元间距1μm的红外石英微透镜阵列;并将其与相应阵列的碲-镉-汞红外光敏阵列进行集成.结果表明:微透镜的占空比达到95%,红外焦平面光能利用率从原来的60%提高到90%以上.由此得出结论:变剂量曝光制作微透镜技术是可行的,正方形孔径球面微透镜阵列代替圆形孔径微透镜阵列,对于提高红外探测器的灵敏度、信噪比、分辨率等性能具备明显优势. 相似文献
13.
Caijun Ke Xinjian Yi Jianjun Lai Sihai Chen 《International Journal of Infrared and Millimeter Waves》2005,26(1):133-146
Microlens array is an important optical element to improve the photosensitivity of charge-coupled device (CCD). In this paper, a monolithic integration technology between microlens and 528 × 528 element PtSi Schottky-barrier infrared charge-coupled device (IRCCD) with a pixel size of 30m × 30m has been developed. The microlens array with low sag and long focal length is designed based on geometrical optics theory. It is directly formed on the back side of the substrate in IRCCD chip using successive photolithography and A+ ion beam etching (IBE) technology. The microlens array is characterized by both surface stylus and point spread function (PSF). The experiment results of integration device between IRCCD and microlens array indicate that the optical signal response is improved obviously and a responsivity increase by a factor of 1.8 in the operation band. 相似文献
14.
为了改善PtSi IRCCD器件的红外响应特性,需要添加长焦距微透镜阵列进行焦平面集光,本文提出了一种新的方法—曲率补偿法用于长焦距微透镜阵列的制作.扫描电子显微镜(SEM)显示微透镜阵列为表面极为平缓的方底拱形阵列,表面探针测试结果显示用曲率补偿法制作的微透镜阵列表面光滑,单元重复性好,其焦距可达到685.51μm.微透镜阵列器件与PtSi IRCCD器件在红外显微镜下对准胶合,显著改善了IRCCD器件的光响应特性. 相似文献
15.
This paper describes a simple batch process for fabrication of microlens and microlens array at the end of an optical fiber or an optical fiber bundle using self-photolithography and etching techniques. A photoresist micro-cylinder was exactly formed at the core of the fiber end by exposing an UV light from the other end of the fiber and conventional development, rinse processes. A photoresist microlens was formed by thermal reflowing of the fiber at 170°C for 1 h. A measurement of transmissivity showed that the fabricated photoresist microlens is applicable for a wavelength that is longer than 450 nm. Alternatively, a glass microlens was fabricated at the core of the fiber by dry etching with an SF6 gas using the photoresist microlens as a mask. The focusing of the lensed fiber was confirmed and simulation work showed that the lensed fiber could focus the light with a beam spot of 2 μm, numerical aperture (NA) of 0.285 and a depth of focus of 16 μm. 相似文献
16.
A GaP microlens for collecting laser light was developed in the tip of a near-field probe. It is important to realize a near-field optical probe head with high throughput and a small spot size. The design and fabrication results of the GaP microlens array are described. The most suitable GaP microlens with a probe was calculated as having a 10 μm radius using the two-dimensional finite difference time domain (2-D FDTD) method. The full width half maximum (FWHM) spot size variation and optical power density tolerance were calculated as 157 nm ± 5 nm and 7%, respectively. A spherical GaP microlens was fabricated with a radius of 10 μm by controlling the Cl2/Ar gas mixture ratio. The difference between the theoretical spherical shape and the fabricated GaP microlens was evaluated as 40 nm at peak to valley. The FWHM spot size and optical throughput of the fabricated microlens were measured as 520 nm and 63%, respectively. The microlens was the same as a theoretical lens with a 10 μm radius. The micron-lens array fabrication process for a near-field optical head was demonstrated in this experiment. 相似文献
17.
18.
19.
用按需滴定技术制备聚合物微透镜阵列 总被引:5,自引:3,他引:2
采用高分子聚合物-单体混合溶液按需滴定-原位热聚合的新方法制作折射微透镜及其阵列.制备透镜的主要材料是甲基丙烯酸甲酯及其聚合物.制备的微透镜直径在1 mm~3 mm范围内,矢高为100 μm~400 μm,透镜焦距在1 mm~4 mm之间.所得微透镜在波长λ=1.55 μm处有很好的光学透过率(90%),适于作光通信耦合器件.用AFM-Ⅱ型原子力显微镜测得微透镜阵列的表面粗糙度Ra约等于0.9 nm,并通过液体的表面张力理论分析了微透镜的形成机理. 相似文献
20.
利用提出的光学读出非制冷红外成像系统,先后制作了单元尺寸各不相同的单层膜无基底焦平面阵列(focal plane array,FPA),获得了室温物体的热图像.分析发现,当FPA的单元尺寸从200μm逐渐减小到60μm时,基于恒温基底模型的理论响应与实验结果的偏差逐渐增大.通过有限元分析方法,模拟分析了不同尺寸的微梁单元在无基底FPA中的热学行为,发现了当单元尺寸逐渐减小时恒温基底模型偏差逐渐增大的原因,即无基底FPA的支撑框架不满足恒温基底条件,受热辐射后支撑框架的温升从基底上抬高了单元的温升.论文还分
关键词:
光学读出
非制冷红外成像
焦平面阵列
无基底 相似文献