Award Data

The general objective of this proposal is to design a self-stabilized monolithic single frequency solid state laser. The main advantage of the approach is based on the integration of a laser cavity within active laser material - Nd-doped photo-thermo-refractive (PTR) glass, which allows constructing narrow line unidirectional, environmental insensitive laser. This glass possesses both properties o ...

Defense Electronics Corporation (DEC) will develop and demonstrate innovative closed-loop control mechanisms for high quality factor Radio Frequency filters or banks of filters for use in frequency-agile radio front-ends. These mechanisms include a hybrid filter control technique using real-time filter response feedback, applications specific integrated circuit (ASIC) or field programmable gate ar ...

Next generation DoD electronic warfare (EW) and commercial communication systems are currently faced with the challenge of delivering a receiver capable of multi-band reception. The receiver must meet various wireless standards and cover an expanse of frequencies and bandwidths. Traditionally the solution to the multi-band converge problem employed many off chip frequency fixed filters and an indi ...

ABSTRACT: Liquid Light and Princeton University will develop an electrochemical process for syngas evolution that uses carbon dioxide and water as the feedstocks. Syngas evolved from the system will then be converted to JP-8 via existing Fischer-Tropsch systems. The syngas evolution process will be based on heterocyclic catalysts originally discovered at Princeton University. Research in Phase I ...

ABSTRACT: Foresight Wireless, LLC (Foresight) proposes a novel autonomous bi-focal cross-layer routing solution, DART, to meet the Air Force"s objective, namely, to demonstrate novel IP routing protocols onboard satellites that would link user preferences and network conditions and improve end-to-end network performance, including heterogeneity of satellite nodes, interferences of satellite links ...

ABSTRACT: The objective of this effort is to develop and demonstrate approaches for realizing metamaterial-based micro-electrometrical (MEM) ultra-low-loss non-dispersive phased array antennas for multifunction radar and communication systems in unmanned and micro air vehicles. A metamaterial based Ka-band unit cell will be designed and provide the foundation for a 4 bit phase shifter that will b ...

In this STTR program, Structured Materials Industries, Inc. (SMI) and partners will develop low-cost, planar gas sensors, with high sensitivity and high selectivity. Gas sensors are critical to many existing and emerging applications in defense and homeland security. Present technology gas sensors based on metal oxide films do not have the required sensitivity or selectivity. The technical appr ...

In this STTR program, Structured Materials Industries, Inc. (SMI) along with the Electro Optics Center - Pennsylvania State University will apply its hybrid Hydride Metal-Organic Vapor Phase Epitaxy (HOVPE) based growth methods to produce optimum quality AlxGa1-xN on AlN substrates. The Phase I goal is to convincingly demonstrate the advantages of the HOVPE technique to produce high quality, epita ...

In this STTR program, Structured Materials Industries, Inc. (SMI) will develop process technology to deposit uniform films of piezoelectric PbZrxTi1-xO3, on substrates with complex 3-dimensional topography. Piezoelectric PbZrxTi1-xO3 films are a critical technology for advanced Micro Electro Mechanical System (MEMS), to provide low power actuation in nanoscale devices. Our technical approach is ...

The objective os this work is to utilize acoustic emission for early detection of cracks in helicopter gearboxes. Cracks will be identified including their location and extent, the system is envisioned to communicate this information as well as the remaining life of the part. Statistical signal processing and conditioning will be a vital part of the work. AbM Engineering, LLC is partnering with Em ...