Award Data

ABSTRACT: Silicon-based lasers/detectors have long been desired for owing to the possibility of monolithic integration of photonics with high-speed Si electronics and the aspiration of broadening the reach of Si technology by expanding its functionalities well beyond electronics. The goal of this project is to first develop high quality SiGeSn material and then use it to demonstrate prototype opt ...

ABSTRACT: Resodyn Corporation proposes to develop a portable, cost effective, near-surface residual stress measuring tools based on electromagnetic principles. Resodyn Corporation has patented technology developed for validating cold expanded button head rivet holes.The first application in Phase I is to apply this technology to countersunk cold expanded rivet holes in 7075 aluminum. In Phase I ...

ABSTRACT:The development of compact, reliable inertial navigation systems is essential for applications where GPS-based systems are ineffective or unavailable. This Phase I SBIR will establish the feasibility of developing an ultra-stable, compact, robust, integrated laser source suitable for atom-based precision navigation and timing (PNT) systems. AdvRs design is enabled by capitalizing on well- ...

ABSTRACT: The goal of head-worn display systems is to increase situation awareness and reduce operator workload. The urgent need is for higher image resolution and lower system latency, while meeting constraints on head-borne weight and power. Current processor solutions cannot meet increased requirements. The challenge is that power consumption is proportional to the amount of data being handled, ...

ABSTRACT: RightPSI, Inc. AF-151-169 Proposal # 2084 Volume One: Technical Abstract RightPSI has 8 years of experience in visual tire pressure indication. Research and engineering development has resulted in the Fill Through Tire Pressure Indicator (FTTPI), an effective, patented product for civilian vehicles. Popular Mechanics magazine recognized the product design with an Editors Choice Award in ...

NASA has a need for electronics that can support proposed flagship missions such as a Venus surface lander. Devices that can operate at temperatures of up to 500?C are desired. Ozark IC and its partner, the University of Arkansas, have created the world's largest known library of CMOS silicon-carbide (SiC) analog and mixed-signal circuits, intellectual property (IP) and packages that can operate ...

Commercial silicon carbide (SiC)-based photonic sensors typically use p–i–n photodiode and reversed-biased Avalanche Photodiode (APD) detectors. These state-of-the-art SiC photodioides use the wafer substrate as one node of the device, thereby making monolithic integration of the device with control or analysis circuitry difficult, if not impossible. Ozark IC's new (patent pending) phot ...

This SBIR Phase II proposes the development and delivery of a compact, space qualifiable, diode-based seed laser system that utilizes a digital controller to allow autonomous acquisition of lock to the required wavelength in remote environments for multi-wavelength flight and space-based lidar applications. Successful development of this technology, due to its compact, efficient, and reliable des ...

This Phase I SBIR will establish the feasibility of developing a collinear three wavelength source for an in-situ, 1800, back scatter nephelometer. The three wavelength source is being developed to facilitate on-board validation measurements of airborne remote backscatter lidar. Currently, commercial nephelometers utilized for in-situ validation measurements employ wavelengths that are both not ...

Bridger Photonics Inc. (Bridger) proposes developing the most efficient, compact, rugged, low-power consumption and cost-effective UV ozone differential absorption lidar (DIAL) transmitter available. Bridger will demonstrate pulse energies above 0.5 mJ with a goal of 1 mJ/pulse with a pulse repetition frequency of 1 kHz. The proposed transmitter will enable widespread deployment of ozone DIAL s ...