Accession Number : ADA301021

Title :   An Ultra-High Speed Incoherent-to-Coherent Converter for Optical Computing.

Descriptive Note : Monthly status rept. 1 Jan-31 Jan 95,

Corporate Author : SILICON MOUNTAIN DESIGN INC COLORADO SPRINGS CO

Personal Author(s) : Gardner, David W.

PDF Url : ADA301021

Report Date : 27 JAN 1995

Pagination or Media Count : 5

Abstract : Many optical computing problems are centered around the processing of incoherent images. These images may be conventional visible light such as those taken with a CCD imager or camcorder. They may also take the form of infrared images in the case of missile seekers or x-ray images from medical or other sources. For optical processing, these images must be converted to either phase or amplitude modulated coherent light. This is typically accomplished by electronically feeding the originally captured image into a spatial light. modulator (e.g., liquid crystal- or deformable mirror array) and modulating a coherent reference beam with the 2 dimensional data pattern. The electrical input to the SLM creates a data flow bottleneck in the optical processing system due to - the inherently serial input architecture. SMD - has proposed a - novel - incoherent to coherent Image converter which solves this problem by providing a massively parallel, optical input feed capability. The proposed architecture utilizes a novel combination of micromachining and ultra-thinned wafer technology to achieve an integrated incoherent to coherent image converter. The converter is capable of directly converting UV, IR, visible, and x-ray energy to a coherent light representation allowing for maximum utilization of downstream optical processing.

Descriptors :   *COHERENT OPTICAL RADIATION, *OPTICAL PROCESSING, *IMAGE CONVERTERS, MIRRORS, DATA PROCESSING, INPUT, OPTICAL EQUIPMENT, COMPUTATIONS, ENERGY, COHERENCE, LIGHT, ARRAYS, X RAYS, ELECTRICAL PROPERTIES, LIQUID CRYSTALS, INCOHERENCE, INFRARED IMAGES, IMAGES, HOMING DEVICES, FLOW, UTILIZATION, BEAMS(RADIATION), GUIDED MISSILE COMPONENTS, MODULATORS, AMPLITUDE MODULATION.

Subject Categories : Electrooptical and Optoelectronic Devices

Distribution Statement : APPROVED FOR PUBLIC RELEASE