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Integration of a Detector Array with an Optical Waveguide Structure and Applications to Signal Processing

机译：探测器阵列与光波导结构的集成及其在信号处理中的应用

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Both planar thin film and channel optical waveguides have been integrated with charge-coupled devices (CCDs). Coupling of light from the waveguide region to the detector elements utilizes a smooth and uniformly-tapered region of SiO2 to minimize scattering. CCd transfer inefficiency of 1.0 times ten to the minus fourth power is consistently obtained for a number of devices. A channel waveguide array formed in a fan-out pattern is introduced as a means of enhancing focal plane resolution in integrated optical devices using optical waveguide lenses. High spatial resolution can thus be obtained without making detector spacings too small, thus avoiding detector problems with regard to fabrication, crosstalk, linearity, and charge transfer inefficiency. Operation of an integrated optical channel waveguide array-CCD transversal filter is reported. Channel waveguides formed in V-grooves couple directly to the sensor elements of the four phase, double polysilicon CCD. Experimental results include a filter transfer function having good agreement with theoretical results. The voltage contrast mode of a scanning electron microscope (SEM) is utilized to observe charge-coupled devices (CCDs) which have been cross sectioned. A new cross sectioning technique which uses anisotropic etching to accurately define the axis along which fracture occurs is presented.

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Boyd, J. T.; Ramey, D. A.; Chen, C. L.; Naumaan, A.; Dutta, S.;
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年度 1981
页码 p.1-73
总页数 73
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Charge coupled devices; Signal processing; Optical waveguides; Charge transfer; Transfer functions; Optical lenses; Planar structures; Thin films; High resolution; Polysilicons; Regions; Resolution; Arrays; structures; Focusing; Detectors; Power; Waveguides; Channels; C;

机译：电荷耦合器件;信号处理;光波导;电荷转移;传递函数;光学透镜;平面结构;薄膜;高分辨率;多晶硅;区域;分辨率;阵列;结构;聚焦;探测器;功率;波导;通道; C;

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Integration of a Detector Array with an Optical Waveguide Structure and Applications to Signal Processing

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