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The Award database is continually updated throughout the year. As a result, data for FY23 is not expected to be complete until September, 2024.

Download all SBIR.gov award data either with award abstracts (290MB) or without award abstracts (65MB). A data dictionary and additional information is located on the Data Resource Page. Files are refreshed monthly.

The SBIR.gov award data files now contain the required fields to calculate award timeliness for individual awards or for an agency or branch. Additional information on calculating award timeliness is available on the Data Resource Page.

  1. DEVELOPMENT OF MICROPLASMA ARRAYS FOR HIGH EFFICIENCY LIGHTING TILES

    SBC: EDEN PARK ILLUMINATION, INC.            Topic: AF08T012

    ABSTRACT: EDEN PARK ILLUMINATION, INC. and the University of Illinois have formed a team to pursue the demonstration and commercialization of large arrays of microcavity plasmas capable of producing white light panels with luminous efficacies above 30 lumens/W. This proposed project will demonstrate the ability of arrays of microplasmas to yield flat lamps of high efficiency, luminance, and col ...

    STTR Phase II 2010 Department of DefenseAir Force
  2. DEVELOPMENT OF MICROPLASMA ARRAYS FOR HIGH EFFICIENCY LIGHTING TILES

    SBC: EDEN PARK ILLUMINATION, INC.            Topic: AF08T012

    ABSTRACT: EDEN PARK ILLUMINATION, INC. and the University of Illinois have formed a team to pursue the demonstration and commercialization of large arrays of microcavity plasmas capable of producing white light panels with luminous efficacies above 30 lumens/W. This proposed project will demonstrate the ability of arrays of microplasmas to yield flat lamps of high efficiency, luminance, and col ...

    STTR Phase II 2010 Department of DefenseAir Force
  3. Electrically Small Multiferroic Antennas

    SBC: PANERATECH, INC.            Topic: AF14AT12

    ABSTRACT: During Phase I, PaneraTech in partnership with UCLA-TANMS (NSF Center for Translational Applications of Nanoscale Multiferroic Systems) achieved a groundbreaking success by designing a multiferroic small antenna based on continuous spin rotation in ferromagnetic nanoelements in periodic electrode array patterns. Specifically, we developed Finite Elements Method (FEM) models to design nan ...

    STTR Phase II 2016 Department of DefenseAir Force
  4. High Temperature Materials for Hypersonic Radomes and Antennas

    SBC: AMERICAN TECHNICAL COATINGS, INC.            Topic: AF18AT013

    Successful completion of this Phase II proposal will fully characterize and evaluate a material for use in RF windows on hypersonic flight vehicles. Phase II will specifically examine the materials suitability through RF testing in X, Ku, and Ka bands and at elevated temperatures to 2000°F. The desired outcome will be a material with predictable, repeatable dielectric properties over frequency ...

    STTR Phase II 2019 Department of DefenseAir Force
  5. Optically Reconfigurable Smart Deployable Materials for Future Satellite Applications

    SBC: BLUECOM SYSTEMS & CONSULTING LLC            Topic: AF17AT018

    In this proposal, Bluecom Systems proposes to develop a framework in designing and manufacturing smart materials that can be used as adaptive radiating structures to operate at different frequencies, with different radiation patterns, and achieve polarization diversity. The solution proposed, based on optically pixilated Silicon or GaAs surfaces, can be used as reflective surfaces for reconfigurab ...

    STTR Phase II 2019 Department of DefenseAir Force
  6. Fast Optical Limiters (OL) with Enhanced Dynamic Range

    SBC: Aegis Technologies Group, LLC, The            Topic: AF17AT029

    Current fielded sensor protection is limited to fixed wavelength filters. Broadband filters designed to circumvent multi-wavelength laser threats are plagued by low transmittance, which degrades the sensitivity and performance of the sensor. Future warfighter threats include frequency agile lasers and thus have the potential of defeating fixed filters. Self-activating (passive) devices where prote ...

    STTR Phase II 2019 Department of DefenseAir Force
  7. Efficient Multi-Scale Radiation Transport Modeling

    SBC: HYPERCOMP INC            Topic: AF08T020

    Radiative heat transfer is a dominant mode of heat transfer in combustion and propulsion systems as well as for hypersonic flow encountered during planetary entry. Solution of the Radiative Transfer Equation (RTE), which is an integro-differential equation, places stringent requirements on the computational resources as: (a) the radiation depends both on spatial and angular dimensions, (b) radiati ...

    STTR Phase II 2010 Department of DefenseAir Force
  8. Development of Multidisciplinary, Multi-Fidelity Analysis and Integration of Aerospace Vehicles

    SBC: AURORA FLIGHT SCIENCES CORPORATION            Topic: AF08BT03

    ABSTRACT: Aurora Flight Sciences, in collaboration with the Massachusetts Institute of Technology (MIT), proposes to further develop and test in realistic settings an innovative method for representing and managing multidisciplinary design information from a wide range of analysis tools. The practical implication resulting from this novel approach is a mathematical framework to confidently determ ...

    STTR Phase II 2010 Department of DefenseAir Force
  9. Speckle image processing for conformal sub-aperture arrays

    SBC: Optical Physics Company            Topic: AF08T021

    Future Air Force platforms require electro-optic long range imaging systems conformal to the surface of the aircraft to minimize drag and maximize stealth. The long imaging range often means having to compensate for atmospheric turbulence as well as the boundary layer around the aircraft. During the first phase of this STTR project, Optical Physics Company (OPC) demonstrated the feasibility o ...

    STTR Phase II 2010 Department of DefenseAir Force
  10. Design and Analysis of Multi-core Software

    SBC: SECURBORATION, INC.            Topic: OSD11T03

    Modern processor design is trending increasingly toward multicore architectures. This is problematic for programmers because writing a correct parallel program is known to be difficult compared to writing the equivalent sequential program. Additionally, a wide body of sequential code has already been developed that cannot exploit the power offered by these new cores because it was written in a s ...

    STTR Phase II 2013 Department of DefenseAir Force
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