TECHNOLOGY LICENSING OPPORTUNITY: Tunable-Index Nanoscale OAM Beams via van der Waals Materials
Energy, Department of · ENERGY, DEPARTMENT OF
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- Response deadline
- Feb 10, 2026, 7:00 PM EST
- Posted
- Jan 20, 2026
- Solicitation
- S-167749
- Set-aside
- None listed
- PSC
- GENERAL SCIENCE AND TECHNOLOGY R&D SERVICES; GENERAL SCIENCE AND TECHNOLOGY; APPLIED RESEARCHAJ12
- Place of performance
- Los Alamos, NM, USA
- Contracting office
- TRIAD - DOE CONTRACTOR · Columbus · OH
- Source
- SAM.gov · updated May 9, 2026
Description
Structured light beams with tunable wavelength and orbital angular momentum (OAM) are enabling new frontiers in optical communication and quantum information science. However, conventional methods for generating such beams rely on spatial light modulators or bulk nonlinear optical crystals, which limit scalability and integration. This new platform leverages van der Waals materials to tune both the wavelength, OAM, and radial structure of vortex beams, using nonlinear optical processes such as sum frequency generation, difference frequency generation, four-wave mixing, and higher-order harmonic generation, all over exceptionally broad spectral ranges due to the elimination of phase matching constraints. The result is an ultracompact material platform that supports robust structured-light manipulation, readily integrable with vertically-integrated free-space nanophotonic vortex light sources to enable applications in optical and quantum communication and optical sensing. Advantages Allows for the free tuning of wavelength, orbital angular momentum, and radial index across a broad spectral range. Integrates into compact, planar, nanophotonic platforms. Supports seamless compatibility with metasurfaces and similar nanophotonic devices. Delivers high nonlinear conversion efficiency in a minimal volume. Eliminates the need for bulky optical components such as spatial light modulators (SLMs) and bulk nonlinear crystals. Enables both quantum and classical applications in integrated optics. Technology Description The technology leverages the unique nonlinear optical properties of atomically thin van der Waals materials to manipulate all the elementary properties of structured light-fields carrying orbital angular momentum. These materials enable broadband nonlinear conversion (due to the absence of phase matching constraints) with improved efficiency and compactness compared to traditional bulk nonlinear optical crystals at comparable lengthscales. Unlike existing solutions, this platform would eliminate the need for external spatial light modulators and bulk nonlinear optical crystals. It is fully compatible with metasurfaces and can be integrated into nanophotonic and optoelectronic devices for wavelength-tunable structured light generation. Market Applications This technology is well suited for integrated photonics platforms in both classical and quantum domains. Potential uses include: enabling high-density data transmission through OAM-multiplexed optical interconnects; producing compact, tunable structured-light sources for quantum communication; and enhancing optical sensing and detection using structured-light techniques. The ability to robustly generate and manipulate OAM beams at the nanoscale would open new possibilities for data transmission, quantum communications, and light-matter interaction control in next-generation optical devices. Development Status: TRL 3 LA-UR-25-31343 US Patent Pending LANL Tech Partnerships: Unlock the Innovative Potential Los Alamos National Laboratory offers a wide range of cutting-edge technologies and capabilities that may provide your company with a competitive edge in the market and unlock the innovative potential that can enhance, refine, and revolutionize your products. LANL�s licensing program focuses on moving inventions developed by our researchers to commercial innovations. Patented and patent pending inventions and copyrighted software are available to existing and start-up companies through exclusive and non-exclusive licensing agreements. For specific discussions, please contact licensing@lanl.gov. Note: This is not a call for external services for the development of this technology. https://www.lanl.gov/engage/collaboration/feynman-center/partner-with-us/licensing-technology https://www.lanl.gov/engage/collaboration/feynman-center/tech-and-capability-search
What similar awards have paid
Real federal awards already on the books in a similar lane — so you can size the opportunity, not guess. This is public history, not a bid price, cost estimate, or prediction that you will win.
Typical award size
$1.19M
Middle of the pack for similar past awards
Most similar awards fall between $250,000 and $1.82M
Who has won work like this
Public awardees in this lane — useful for competitor scan or teaming ideas, not a ranked list of “best” firms.
- 1BATTELLE SAVANNAH RIVER ALLIANCE, LLC1 award$1.32B
- 2LINQUEST CORPORATION3 awards$65.59M
- 3GENERAL ATOMICS2 awards$44.60M
- 4SCIENCE APPLICATIONS INTERNATIONAL CORPORATION1 award$33.41M
- 5MI TECHNICAL SOLUTIONS, INC.3 awards$30.81M
- 6THE KENIFIC GROUP LLC1 award$30.65M
- 7THE LELAND STANFORD JUNIOR UNIVERSITY1 award$25.64M
- 8RIVERSIDE TECHNOLOGY INC1 award$23.28M
Recent examples
A few of the newest similar awards in our index.
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- CAPESYM INCSep 30, 2025Department of Homeland Security$1.19MSource
- BATTELLE SAVANNAH RIVER ALLIANCE, LLCSep 30, 2025Department of Energy$1.90BSource
- MI TECHNICAL SOLUTIONS, INC.Sep 29, 2025General Services Administration$12.60MSource
- MI TECHNICAL SOLUTIONS, INC.Sep 29, 2025General Services Administration$37.46MSource
Drawn from official USAspending contract records in our index. Always confirm requirements on the SAM.gov notice before you bid.
Intelligence only — not legal advice or a guarantee of award. Always verify requirements on the official SAM.gov notice. Past award amounts are public history, not a suggested bid or prediction. Notice ID 76361e3b00f14cb09c23e4486bb37924.