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NOTE: The Solicitations and topics listed on this site are copies from the various SBIR agency solicitations and are not necessarily the latest and most up-to-date. For this reason, you should visit the respective agency SBIR sites to read the official version of the solicitations and download the appropriate forms and rules.

Displaying 17101 - 17110 of 18911 results
  1. 35b: Superconducting Magnet Technology

    Release Date: 12-14-2020Open Date: 12-14-2020Due Date: 02-22-2021Close Date: 02-22-2021

    b. Superconducting Magnet Technology Grant applications are sought to develop: · very high field (greater than 16 T) HTS/LTS hybrid dipole magnets; · designs and prototypes for HTS/LTS hybrid solenoid systems capable of achieving 30 to 40T axial fields and warm bores with a diameter ≥2 cm; · liquid-helium-operating electronics for superconducting magnets to ...

    SBIR/STTRPhase IDepartment of Energy
  2. SB141-001: Superconducting Nanowire Single-Photon Detectors

    Release Date: 11-20-2013Open Date: 12-20-2013Due Date: 01-22-2014Close Date: 01-22-2014

    OBJECTIVE: To develop nanowire single-photon detectors of shortwave infrared light with high system efficiency (>90%) and bandwidth (~1 GHz), high fabrication yield, and with compact (~5U) packaging and turnkey operation. DESCRIPTION: Single photon sensitive detectors have many applications including active and passive imaging, traditional and upcoming quantum optical communications, and quant ...

    SBIRPhase IDepartment of DefenseDefense Advanced Research Projects Agency
  3. b: Superconducting Radiofrequency Cavities

    Release Date: 07-29-2011Open Date: 08-02-2011Due Date: 09-17-2011Close Date: 09-17-2011

    Grant applications are sought for the development of superconducting radiofrequency cavities for acceleration of proton and ion beams, with relativistic betas ranging from 0.1 to 1.0. Frequencies of current interest include 325, 650, and 1300 MHz. Continuous wave (CW) cavities are of the greater interest, although pulsed cavities could also be supported. Accelerating gradients above 15 MV, at Q0 i ...

    SBIRPhase IDepartment of Energy
  4. 26c: Superconducting RF Cavities

    Release Date: 11-27-2017Open Date: 11-27-2017Due Date: 02-26-2018Close Date: 02-26-2018

    26c FY 2018 DOE SBIR/STTR Phase I Release 2 Department of Energy ...

    SBIR/STTRPhase IDepartment of Energy
  5. 29c: Superconducting RF Cavities

    Release Date: 12-21-2018Open Date: 12-21-2018Due Date: 02-25-2019Close Date: 02-25-2019

    29c FY 2019 DOE SBIR/STTR Phase I Release 2 Department of Energy ...

    SBIR/STTRPhase IDepartment of Energy
  6. 9.03.08.67: Superconducting RF Filters for Advanced Signal Processing

    Release Date: 01-10-2017Open Date: 01-10-2017Due Date: 03-30-2017Close Date: 03-30-2017

    High-performance filters can be enabled by operation at cryogenic temperatures. The lower loss associated with superconductors can enable unique functionality, such as power-limiting behavior and extremely high selectivity. These two unique characteristics can be combined to develop, for example, auto-limiting mulitplexers, which can be used to excise large in-band interference signals without att ...

    SBIRPhase IDepartment of CommerceNational Institute of Standards and Technology
  7. 27c: Superconducting RF Materials & Cavities

    Release Date: 11-30-2015Open Date: 11-30-2015Due Date: 02-09-2016Close Date: 02-09-2016

    27c Department of Energy ...

    SBIRPhase IDepartment of Energy
  8. 26c: Superconducting RF Materials & Cavities

    Release Date: 10-31-2016Open Date: 11-28-2016Due Date: 02-07-2017Close Date: 02-07-2017

    26c DOE SBIR/STTR 2017 Phase I Release 2 Department of Energy ...

    SBIR/STTRPhase IDepartment of Energy
  9. d: Superconducting RF Materials and Cavities

    Release Date: 08-12-2013Open Date: 08-12-2013Due Date: 10-15-2013Close Date: 10-15-2013

    Materials and Fabrication Technologies for SRF Cavities Material properties, surface features, processing procedures, and cavity geometry can have significant impact on the performance of superconducting radio-frequency (SRF) accelerator cavities. Grant applications are sought to develop (1) new raw materials streams, such as those utilizing large-grain Nb ingot slices; (2) new or improved SRF ca ...

    SBIRPhase IDepartment of Energy
  10. b: Superconducting Technology for Accelerators

    Release Date: 07-29-2011Open Date: 08-02-2011Due Date: 09-17-2011Close Date: 09-17-2011

    Superconducting HOM-damped (higherorder-mode-damped) RF systems are needed for present and future storage ring and linac applications.Questions – contact Eliane Lessner, Eliane.Lessner@science.doe.gov

    SBIRPhase IDepartment of Energy
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