Award Data

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This Small Business Innovation Research project will investigate the feasibility of a programmable image processor with on-chip light sensing capability The architecture of the processor is based on cellular neural networks, which can be employed to perform many types of temporal and spatial image processing tasks through programming of the cloning templates.The proposed chip contains three disti ...

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We will demonstrate the capability of scatterometry to provide a process monitor to post exposure bake of chemically amplified photoresist. Two or more scatterometers will be designed that are capable of monitoring the intensities of multiple diffraction orders that result from illuminating device patterns of photoresist. The goal is to demonstrate the capability of scatterometry to provide a PEB ...

The objective of the proposed project is to develop innovative new analytical instrumentation and methodology capable of performing fully automated, non-destructive analysis of semiconductor sensor elements and arrays locate on three inch diameter wafers. The instrumentation would be capable of analyzing II-VI compounds and alloys, particularly HgCdTe. The methodology would employ state-of-the-a ...

The goal of this program is to design and fabricate selected liquid rocket engine combustion components. This goal will be accomplished by developing a low-cost, near net-shape technology for fabrication and rapid densification of ablation and oxidation-resistant LRE components for a wide variety of Air Force missions. The material which will be used for this purpose is zirconium diboride/boron ...

Solid Free Forming of monolith and uniform discrete reinforced materials has been demonstrated by fused deposition of heavily loaded slurries. In this program we will extend the fused deposition process to functional gradient material. The composition of material deposited will be controlled by the flow rates of two individual materials that are mixed in a low dead volume head. Thus, it will be po ...

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Continuous attenuation of ambient light without image distortion is of great importance in helmet mounted displays. To accomplish this, we propose a device based on liquid crystal-dichroic dye mixture. The system is electrically controllable, light weight, with full grey scale capability for all light conditions. It addresses all of the requirements and restrictions of visor based helmet mounte ...