Special NoticeActiveBA-1125
TECHNOLOGY LICENSING OPPORTUNITY Solid State Nuclear Lasing Sensors: Revolutionizing In-Pile Reactor Measurements
ENERGY, DEPARTMENT OF / ENERGY, DEPARTMENT OF / BATTELLE ENERGY ALLIANCE–DOE CNTRKey dates?
- Posted?
- Oct 31, 2023
- Response deadline?
- Nov 1, 2024, 3:00 PM UTC
- Archive date?
- —
- Archive type?
- auto15
Classification?
- Notice type?
- Special Notice
- Base type?
- Special Notice
- Set-aside?
- —
- Set-aside code?
- —
- PSC?
- 6099
NAICS?
Issuing office?
- Department?
- ENERGY, DEPARTMENT OF
- Sub-tier?
- ENERGY, DEPARTMENT OF
- Office?
- BATTELLE ENERGY ALLIANCE–DOE CNTR
- Office code?
- —
- Organization type?
- OFFICE
- Office address?
- Idaho Falls, ID, 83415, USA
Place of performance?
- Street?
- —
- Street 2?
- —
- City?
- Idaho Falls
- State?
- ID
- Zip?
- 83415
- Country?
- USA
Contacts?
- Andrew Rankinprimary
Description?
TECHNOLOGY LICENSING OPPORTUNITY Solid State Nuclear Lasing Sensors: Revolutionizing In-Pile Reactor Measurements Harness the power of solid-state lasing sensors for real-time, in-pile reactor power and flux measurements, enhancing accuracy and spatial resolution. Overview: Traditional nuclear reactor power measurement methods rely on external instruments, often behind shielding, resulting in limited spatial resolution and potential inaccuracies due to spectral shifts and electronic drifts. Description: This groundbreaking technology employs solid state lasing media/crystals, excited by various radiations within a reactor core, to produce laser light. The intensity of this light directly correlates with reactor power and radiation flux. By utilizing multiple lasing media doped with different fissile species, the instrument can determine both reactor power and energy spectrum. These passive instruments, requiring no in-core power, can be strategically placed within the reactor for real-time power/flux distribution measurements, with data transmitted via a simple fiber optic lead-out. Benefits: • Direct in-pile measurement enhances accuracy and spatial resolution. • Real-time data integration potential for reactor control systems. • Simplified design with a single optical fiber lead-out ensures durability in high radiation environments. • Cost-effective solution for commercial nuclear power plants. Applications: • Commercial nuclear power plants. • Micro nuclear reactors, especially in the emerging market. • Space power and nuclear thermal propulsion reactors for remote operations. Development Status: TRL 3 - Analytical and experimental proof-of-concept for critical functions/characteristics. IP Status: US Patent Application No. 17/758,395, “Solid State Nuclear Pumped Lasing Sensors for In Pile Reactor Power and Flux Measurement, Direct Energy Conversion, and Related Methods,” BEA Docket No. BA-1125. For a deeper understanding of this transformative technology and potential collaborations, please contact Andrew Rankin at td@inl.gov. Managed by Battelle Energy Alliance, LLC, the Idaho National Laboratory (INL) is eager to form commercial partnerships. We aim to license our intellectual property to adept entities, especially small businesses and start-ups, to bring these innovations to the market. Explore collaboration opportunities with INL at https://inl.gov/inl-initiatives/technology-deployment.
Other notices in this solicitation?
- Special NoticeTECHNOLOGY LICENSING OPPORTUNITY Solid State Nuclear Lasing Sensors: Revolutionizing In-Pile Reactor MeasurementsMay 7, 2026LATEST
- Special NoticeTECHNOLOGY LICENSING OPPORTUNITY Solid State Nuclear Lasing Sensors: Revolutionizing In-Pile Reactor MeasurementsApr 13, 2026LATEST
- Special NoticeTECHNOLOGY LICENSING OPPORTUNITY Solid State Nuclear Lasing Sensors: Revolutionizing In-Pile Reactor MeasurementsSep 16, 2025
- Special NoticeTECHNOLOGY LICENSING OPPORTUNITY Solid State Nuclear Lasing Sensors: Revolutionizing In-Pile Reactor MeasurementsOct 31, 2024LATEST
Similar open contracts
Metadata?
- Notice ID?
- 3155f5e7207a42a9926022077765c7c7
- Full path?
- ENERGY, DEPARTMENT OF.ENERGY, DEPARTMENT OF.BATTELLE ENERGY ALLIANCE–DOE CNTR
- Office code?
- —
- Ingested?
- Jun 12, 2026
- Updated?
- Jul 11, 2026