You are here
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.
-
SOLID STATE LASER SCANNER FOR LASER ORDNANCE INITIATOR
SBC: Apa Optics, Inc. Topic: N/ATHIS PROPOSAL ADDRESSES THE DEVELOPMENT OF A SOLID STATE LASER SCANNER FOR ROUTING A HIGH ENERGY LASER BEAM AMONG THE FIBER OPTIC ENERGY TRANSFER PATHS OF A LASER ORDNANCE INITIATION SYSTEM. A SOLID STATE LASER SCANNER WITH NO MOVING PARTS WILL ENABLE A MORE COMPACT AND DURABLE LASER ORDNANCE INITIATION SYSTEM. APA OPTICS' SOLID STATE LASER SCANNER UTILIZES INTERGRATED OPTIC WAVEGUIDES OF ALGAAS A ...
SBIR Phase II 1992 Department of DefenseAir Force -
METALORGANIC ATOMIC LAYER EPITAXY FOR YBACUO SIS DETECTOR FABRICATION
SBC: Apa Optics, Inc. Topic: N/ATHIS PROPOSAL DESCRIBES A PHASE I PROGRAM AIMED AT DEVELOPING SUPERCONDUCTOR INSULATOR SUPERCONDUCTOR (SIS) DETECTORS IN THIN FILMS OF YBACUO DEPOSITED ON SRTIO3 SUBSTRATES. WHEN OPERATEDIN THE QUANTUM MODE, OUR PROPOSED HTC BASED SIS DETECTOR CAN POTENTIALLY HAVE A VERY HIGH SENSITIVITY FOR LWIR DETECTION. WE PLAN TO USE AUNIQUE MOCVD BASED ATOMIC LAYER EPITAXY APPROACH. OUR SELECTION OF ATOMIC L ...
SBIR Phase II 1992 Department of DefenseDefense Advanced Research Projects Agency -
VERTICAL CAVITY SURFACE EMITTING LASER MODULES FOR OPTICAL COMMUNICATION AND SIGNAL PROCESSING
SBC: Apa Optics, Inc. Topic: N/AVERTICAL CAVITY SURFACE EMITTING LASERS ARE UNDER DEVELOPMENT AT SEVERAL U.S. LABS WHICH CONSIST OF A GAAS/ALGAAS QUANTUM WELL FABRY-PEROT CAVITY SANDWICHED BETWEEN N AND P DOPED HIGH REFLECTIVITY SEMICONDUCTOR MIRRORS (GAAS/ALGAAS QUARTER WAVE STACKS). OUR PHASE I RESEARCH PROVES THE FEASIBLITY OF UNIQUE APPROACH TO THE ELECTRIC ADDRESSABILITY OF THESE SURFACE EMITTING LASERS. FOR ADDRESSING A (M ...
SBIR Phase II 1992 Department of DefenseMissile Defense Agency -
A BURIED ELECTRODE MACH ZEHNDER WAVEGUIDE INTENSITY MODULATOR WITH OPERATION SPEEDS IN EXCESS OF 100 GHZ
SBC: Apa Optics, Inc. Topic: N/ATHIS PROPOSAL DESCRIBES AN APA OPTICS PROGRAM TO DEVELOP A HIGH SPEED (100GHZ) GAAS WAVEGUIDE BASED MACH ZEHNDER MODULATOR. OUR APPROACH CENTERS ON THE USE OF A BURIED ELECTRODE CONFIGURATION TO ACHIEVE VELOCITY MATCHING OF THE RF AND OPTICAL SIGNALS. THIS WE FEEL WILL RESULT IN A DEVICE WITH A BROADBAND RESPONSE FROM DC TO 100GHZ. WE WILL WORK IN CONJUNCTION WITH THE ULTRFAST SCIENCE LAB AT THE U ...
SBIR Phase I 1992 Department of DefenseArmy -
AlxGa(1-x)N High Electron Mobility Transistors for High Temperature Applications
SBC: Apa Optics, Inc. Topic: N/AGaN high electron mobility transistors or HEMTs are proposed for use as high temperature electronic devices. HEMTs are excellent for both power and low noise amplification since they posses a high carrier concentration and an enhanced carrier mobility. GaN has a large bandgap of 3.2 a, which gives it a greater breakdown voltage and a higher saturated electron velocity than GaAs. GaN, in addition, ...
SBIR Phase I 1992 Department of DefenseNavy -
ATOMIC LAYER EPITAXY OF BORON NITRIDE
SBC: Apa Optics, Inc. Topic: N/AWE PROPOSE A PHASE I RESEARCH PROGRAM AIMED AT DEPOSITING SINGLE CRYSTAL BN FILMS OVER SAPPHIRE AND SILICON CARBIDE SUBSTRATES. OUR PLAN IS TO EMPLOY A UNIQUE PHOTO-ASSISTED SWITCHED ATOMIC LAYER EPITAXY PROCESS. THIS WE FEEL WILL REDUCE THE SINGLE CRYSTAL EPITAXY TEMPERATURE VALUES CLOSE TO 1400C. WE ALSO PROPOSE TO USE A UNIQUE MULTILAYER BUFFERING PROCEDURE TO DECREASE THE INTERFACE DEFECTS RES ...
SBIR Phase I 1992 Department of DefenseAir Force -
GaAs/GaN Strained Layer Superlattice Material for High Temperature Transistors
SBC: Apa Optics, Inc. Topic: N/AElectronic devices which operate at high temperatures could be used in many military and commercial systems. GaAs and Si based devices cannot operate at these temperatures and require cooling. Wide bandgap material such as diamond, SiC and GaN have greater breakdown voltages, higher operating temperatures, and higher saturated electron velocities than either GaAs or Si. However, these material sys ...
SBIR Phase I 1992 Department of DefenseMissile Defense Agency -
COLD STERILANT FOR FIELD MEDICAL USE
SBC: Chemical Research Lab Of Topic: N/AEARLIER WORK HAD SHOWN THAT THERE EXISTS A SYNERGISTIC EFFECT BETWEEN QUATERNARY AMMONIUM COMPOUNDS AND CHLORINE DIOXIDE (US PATENT 4,073,888 TO PETTIBONE LABORATORIES, A SUBSIDIARY OF INTERNATIONAL DIOXCIDE, INC.) THIS COMPOSITION IS A SOLUTION WHICH RECENTLY WAS SHOWN TO PASS THE SUTURE LOOP TEST (AOAC SPOROCIDAL OFFICIAL METHOD) IN 6-9 HOURS INDICATING THE COMPOSITION TO BE SPOROCIDAL AND A COL ...
SBIR Phase I 1992 Department of DefenseArmy -
COMPOSITE MATERIALS GUIDANCE FOR SUBMARINE
SBC: DEEGAN RESEARCH GROUP, INC. Topic: N/ACOMPOSITE MATERIALS OFFER A WIDE RANGE OF ATTRIBUTED THAT CAN IMPROVE THE PERFORMANCE AND REDUCE THE COST OF NEW SUBMARINES. COMPOSITES HAVE NOT YET BEEN USED EXTENSIVELY IN SUBMARINES BECAUSE THERE IS LITTLE EXPERIENCE IN THE SUBMARINE ENGINEERING COMMUNITY ON WHICH TO BASE COMPONENT DESIGN. COMPOSITES, UNLIKE METALS, HAVE A VERY LIMITED BODY OF DESIGN GUIDANCE SPECIFICALLY ORIENTED TO SUBMARINE ...
SBIR Phase II 1992 Department of DefenseNavy -
Format D Battery Module
SBC: DEEGAN RESEARCH GROUP, INC. Topic: N/A1Reliable and continuous power to submarine electronics is essential for mission execution and for the safe operation of the ship. Digital electronics cannot continue operation through even very short power outages cause by bus transfer devices that have historically been sufficient for analog combat systems. The restart and reload that a digital system must execute after a short power interruptio ...
SBIR Phase I 1992 Department of DefenseNavy