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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.

Displaying 204641 - 204650 of 207712 results
  1. High Frequency MEMS-based TWTS using Novel Interaction Circuits and Beam Sources

    SBC: CALABAZAS CREEK RESEARCH, INC.            Topic: N/A

    We propose to investigate innovative, wideband, traveling-wave tubes (TWTs) compatible with three-dimensional (3D) micro-electro-mechanical systems (MEMS) fabrication techniques for millimeter or sub-millimeter wave applications. At least three novelinteraction circuits designed around MEMS fabrication technology will be investigated, as well as a novel electron beam source using field emission a ...

    STTR Phase I 2003 Department of DefenseArmy
  2. SBIR Phase I: Millisecond Microwave Annealing for Next Generation Ultra-Shallow Junction Formation

    SBC: CALABAZAS CREEK RESEARCH, INC.            Topic: N/A

    This Small Business Innovation Research (SBIR) Phase I project seeks to develop the next generation of rapid thermal processing (RTP) equipment for advanced CMOS technology. This research will investigate the commercial feasibility of millisecond microwave anneal system for 300 mm silicon wafers. The anticipated goals of this research are (1) to demonstrate the maximum power/heating capabilities o ...

    SBIR Phase I 2003 National Science Foundation
  3. A Finite Element, Adaptive Mesh, Particle-In-Cell Code

    SBC: CALABAZAS CREEK RESEARCH, INC.            Topic: N/A

    72498S03-I Existing computer codes for modeling charged particles in three-dimensional geometries use finite-difference-analysis techniques and fixed, orthogonal, structured elements. The computational size of the problems of interest is extremely large, thereby severely limiting the types of problems that can be solved and the information that can be gained. A new approach that maintains accurac ...

    SBIR Phase I 2003 Department of Energy
  4. A Finite Element, Adaptive Mesh Particle-In-Cell Code

    SBC: CALABAZAS CREEK RESEARCH, INC.            Topic: 44

    72498-Existing computer codes for modeling charged particles in three-dimensional geometries use finite-difference-analysis tech¿niques and fixed, orthogonal, structured elements. The computational size of the problems of interest is extremely large, thereby severely limiting the types of problems that can be solved and the information that can be gained. A new approach that maintains accuracy wh ...

    SBIR Phase II 2004 Department of Energy
  5. Sheet Beam Klystron for Accelerators

    SBC: CALABAZAS CREEK RESEARCH, INC.            Topic: N/A

    72238S03-I To address the need for higher power, higher frequency radio frequency (RF) sources to drive advanced accelerators and colliders, this project will develop an 80-120 MW, 11.424 GHz klystron with a sheet electron beam. The operating voltage for the klystron will be as low as possible, and a gridded electron gun will be used with hybrid/solid state power supplies to minimize the RF syst ...

    SBIR Phase I 2003 Department of Energy
  6. Field Marshall Simulation Environment

    SBC: CALABAZAS CREEK RESEARCH, INC.            Topic: AF04T006

    High power microwave researchers need multiple, low cost, simulation codes. These codes need to have user interface consistency for common functions and to use the research community’s vocabulary and units in specific technical areas. Access to source code is of enormous benefit to research groups but not possible within the present technical software market. Along with these “usability” iss ...

    STTR Phase II 2005 Department of DefenseAir Force
  7. Field Marshal Simulation Environment

    SBC: CALABAZAS CREEK RESEARCH, INC.            Topic: AF04T006

    The Field Marshal Electromagnetic Simulation Environment (EM-SE) will provide a "virtual laboratory" for high-voltage radiation source research and design. The environment will be based on a modern scriptable programming language (Python) for usability and flexibility, finite difference techniques for extensibility and ease of maintenance, and multigrid techniques to enhance speed and power. Reduc ...

    STTR Phase I 2004 Department of DefenseAir Force
  8. Virtual Laboratory Environment for High-Voltage Radiation Sources

    SBC: CALABAZAS CREEK RESEARCH, INC.            Topic: AF04T006

    The Computational Virtual Laboratory (VLAB) is a computer-based laboratory for performing experiments with high-voltage, high-current electron-driven sources of electromagnetic radiation. The VLAB is based on the XOOPIC object-oriented particle-in-cell framework. The XOOPIC code was developed by a team led by Dr. Verboncoeur in the Plasma Theory and Simulation Group at University of California at ...

    STTR Phase II 2005 Department of DefenseAir Force
  9. User-Safe "Virtual Laboratory" Environment for High-Voltage Radiation Source Experiments

    SBC: CALABAZAS CREEK RESEARCH, INC.            Topic: AF04T006

    The Computational Virtual Laboratory for High Voltage Radiation Experiments (VLAB) will be a computer-based laboratory for carrying out experiments with high-voltage, high-current electron-driven sources of electromagnetic radiation. Applications for the VLAB include studies of fundamental physics in the high-voltage, high-current environment; high power microwave sources for directed energy weapo ...

    STTR Phase I 2004 Department of DefenseAir Force
  10. Advanced Quasi Optical Launcher Systems

    SBC: CALABAZAS CREEK RESEARCH, INC.            Topic: 32

    Recently completed electromagnetic analysis and synthesis codes have been used to generate efficient designs for Vlasov-Denisov-type quasi-optical (QO) launchers in gyrotrons. However, significant improvements still can be achieved over existing QO launcher and mirror transmission approaches. Examples of advanced QO launcher concepts include compact QO launchers, coaxial mode QO launchers, step- ...

    SBIR Phase II 2006 Department of Energy
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