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Award Data
The Award database is continually updated throughout the year. As a result, data for FY24 is not expected to be complete until March, 2025.
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.
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Coaxial Energetic Ion Depostition of Superconducting Coatings on Copper RF Cavities for Particle Accelerators
SBC: ALAMEDA APPLIED SCIENCES CORPORATION Topic: 15a75521S Radio frequency (RF) cavities are a key component in particle accelerators for fundamental high-energy physics research and medical applications. To enhance their capabilities, niobium-coated superconducting copper cavities have shown promise for supporting higher electric field gradients when compared to non-superconducting designs. However, a satisfactory coating method has not been de ...
SBIR Phase II 2005 Department of Energy -
High Temperature, Superconducting, Thinfilm Coatings for RF Accelerator Cavities
SBC: ALAMEDA APPLIED SCIENCES CORPORATION Topic: 45a78840S05 Superconducting radio frequency (RF) accelerator cavities are traditionally constructed from pure Niobium metal. However, niobium is expensive and difficult to manufacture, leading to increased material and fabrication costs. Compounding the cost problem is the fact that the majority of the superconductor is wasted because the majority of the material is used to meet the mechanical stre ...
SBIR Phase I 2005 Department of Energy -
OPTRODE MEASUREMENT OF RELATIVE HUMIDITY USING ROOM TEMPERATURE PHOSPHORESCENCE QUENCHING
SBC: Abel Company Topic: N/AQUENCHING OF ROOM-TEMPERATURE PHOSPHORESCENCE OF LUMINESCENT COMPOUNDS IMMOBILIZED ON OR IN SUITABLE THIN- FILM MATRICES IS PLANNED AS A METHOD FOR MEASURING RELATIVE HUMIDITY. COMBINED WITH FIBER OPTICS TECHNOLOGY THIS APPROACH APPEARS TO HAVE THE CAPABILTY OF MEASURING RELATIVE HUMIDITY. COMBINED WITH FIBER OPTICS TECHNOLOGY THIS APPROACH APPEARS TO HAVE THE CAPABILITY OF MEASURING AND/OR MONITO ...
SBIR Phase II 1986 Department of Energy -
Workstation Network Interfaces for 10 Gbps and Beyond
SBC: Acadia Optronics, Llc Topic: 4078684 The near-term requirements of scientific visualization and collaboration software, as well as the anticipated demands of multimedia end-users, argue for dramatic advances in workstation throughput. In particular, desktop network interfaces must accommodate the bandwidth available on current and future high performance networks. To meet these next-generation networking goals, this project w ...
SBIR Phase I 2005 Department of Energy -
Inert-Gas Buffering for Particle Size Separation of Superconductor Precursor Powders
SBC: Accelerator Technology Corporation Topic: 3578953 In the fabrication of powder-in-tube (PIT) Nb3Sn superconductors, needed for high energy physics applications, the particle size distribution limits the final filament size to which the strand can be drawn. In previous work, a virtual impactor (VI) aerosol particle sizing process was developed to process powders with near-zero-defect removal of all particles larger than a desired threshol ...
SBIR Phase I 2005 Department of Energy -
RESPONSE TO DROUGHT AS CORRELATED WITH CAVITATION SIGNALS
SBC: Acoustic Emission Technology Topic: N/ATHE PROGRAM IS DESIGNED TO ANSWER THE QUESTION WHETHER OR NOT THE ACOUSTIC EMISSION SIGNALS GENERATED BY WATER STRESS INDUCED CAVITATION IN PLANTS OCCURS PRIOR TO OR DURING IRREVERSIBLE DAMAGE TO PLANT GROWTH. THE SELECTION OF INSTRUMENTATION WITH RESPECT TO FREQUENCY, LOCATION, SIGNAL CONDITIONING, DATA PROCESSING AND ANALYSIS WILL BE EVALUATEDWITH RESPECT TOWARDS DETERMINATION OF THE PARAMETERS ...
SBIR Phase I 1986 Department of Energy -
Axial Magnetic-Field-Enhanced, High-Density Plasma Neutralized Beam Transport for High Energy Density Physics and Inertial Fusion Energy
SBC: ACREE TECHNOLOGIES INCORPORATED Topic: 34a78676 Fusion energy has the potential of providing significant electrical power in the future, reducing U.S. dependence on dwindling oil supplies. A critical aspect of developing inertial fusion energy, as well as enabling high-energy-density physics studies, is the ability to tightly focus intense, high-energy ion beams. Recent studies have shown that the stringent focusing requirements can be ...
STTR Phase I 2005 Department of Energy -
Performance Monitoring, Prediction, and Run-Time Adaption of Grid-Distributed Applications
SBC: 3dgeo Development Inc. Topic: 41b78647 Three-dimensional seismic imaging is a computationally-intensive technology that has allowed the success ratio of exploratory oil and gas wells to increase from 20% to 80%. This project will develop technology for identifying, predicting, and monitoring factors to increase the efficiency of this process. Specifically, given a parallel program executing on a homogeneous or heterogeneous clu ...
STTR Phase I 2005 Department of Energy -
Ultrasensitive Detection of Aerosol Precursors Including Ammonia
SBC: Aculight Corporation Topic: 03b78830 The Department of Energy requires improved measurement techniques to quantify trace gas species in the atmosphere, in order to achieve further understanding of the formation of aerosols and their role in climate change. This project will combine a novel, ultra-sensitive, photo-acoustic detection technique with a high power, widely tunable mid-infrared laser source to enable rapid, sub-part- ...
SBIR Phase I 2005 Department of Energy -
Solid State Laser Providing Efficient Conversion to the UV for Proliferation Detection
SBC: Aculight Corporation Topic: 4878807 The remote detection of chemical signatures for nuclear proliferation, requires a pump laser capable of driving a tunable ultraviolet light source. The pump laser must be compact and efficient, and produce a very high quality beam. This project will build a pump laser with a relatively new laser material, Yb:S-FAP, developed by the DOE at Lawrence Livermore National Laboratory. Yb:S-FAP a ...
SBIR Phase I 2005 Department of Energy