Award Data

ADS proposes to apply the Communication Taxonomy (CommTax) toolkit developed under a previous SBIR contract (current in the final stages of Phase II development). CommTax will be applied to the specific case of of nuclear scintillation in order evaluate how configuration parameters can be adjusted to achieve optimal performance. In addition, we will evaluate CommTax''s underlying technologies for ...

The goal of this SBIR effort is to develop an alternative technology for a new generation of high-performance type-II superlattice (SL) detectors that are suitable for MDA applications in the spectral region from 7 to 11 um and beyond and that out-perform detectors that are based on existing technology. Type-II systems offer potential advantages over MCT and conventional III-V semiconductor techn ...

In this SBIR project MagiCom proposes several innovative concepts to provide high speed, in-flight communication links between the Ballistic Missile Defense System (BMDS) Fire Control and Interceptor/Kill Vehicles such as the Ground Missile Defense – Exoatmospheric Kill Vehicle (GMD-EKV) and other potential platforms in a Nuclear Fading Channel / ECM Environments. The development of a Design for ...

Active Signal Technologies and Alfred University have brought together a broad-based industrial consortium to rapidly advance the development and commercialization of bismuth sodium titanate (BNT), a novel high performance capacitor material for use in both high-temperature and high-field applications. While the dielectric properties of our Phase I BNT show great promise, this is a new-comer to t ...

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Advanced Thermal and Environmental Concepts (ATEC Inc.), in collaboration with the University of Maryland, NASA Goddard Space Flight Center, and Thermacore, Inc., propose to develop and test a highly efficient, source integrated, ultra compact cooling device with broad applications in military and commercial sectors. An electrohydrodynamic (EHD)-enhanced ultra thin film evaporation concept is use ...

ATEC and TA&T, in collaboration with the University of Maryland, will develop a light-weight, low-cost ceramic-based, high heat flux microchannel heat sink device suitable for power electronics cooling applications. The combination of our uniquefabrication process and the incorporation of an active heat transfer enhancement technology(electrohydrodynamics, EHD) will provide an enabling technology ...

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