Binary Infrared Modulator Array Based on Dynamic Metamaterials
ID: AF25B-T006Type: BOTH
Overview

Topic

Binary Infrared Modulator Array Based on Dynamic Metamaterials

Agency

Agency: DODBranch: USAF

Program

Type: STTRPhase: BOTH

Topic Link

https://www.sbir.gov/topics/11890

Additional Information

https://www.dodsbirsttr.mil/submissions/solicitation-documents/active-solicitations
Timeline
    Description

    The Department of Defense, specifically the United States Air Force, is seeking proposals for the Small Business Innovation Research (SBIR) program focused on developing a Binary Infrared Modulator Array based on dynamic metamaterials. The objective is to create a high-speed pixel array that operates in binary mode within the mid-infrared spectral region, enhancing the fidelity of scene projection for various sensor systems. This technology is crucial for applications in military projection, communications, and commercial sectors such as autonomous navigation and machine vision. Proposals are due by May 21, 2025, with the opportunity open for submissions starting April 2, 2025. For more details, interested parties can visit the official solicitation page at SBIR.gov.

    Files
    No associated files provided.
    Similar Opportunities
    Affordable Ka-Band Metamaterial-Based Electronically Scanned Array Radar for Test and Training -
    DOD
    The Department of the Army is seeking innovative solutions for low-cost Ka-Band radar systems through advancements in metamaterials, aimed at emulating threat representative systems for the Test and Evaluation community. The primary objective is to develop a metamaterial-based Ka-Band radar that mimics the performance of an Active Electronically Scanned Array (AESA) while targeting a production cost of $300,000. This technology is crucial for various applications, including environmental monitoring, civil security, maritime surveillance, and healthcare imaging. Interested parties can submit Phase I proposals with a budget of up to $250,000 for a six-month performance period, with the application due by December 31, 2025. For more details, visit the solicitation agency's website at https://www.dodsbirsttr.mil/topics-app/.
    OPEN TOPIC - Tactical CB Visualization -
    DOD
    The Department of Defense (DOD) is seeking innovative solutions through the Small Business Innovation Research (SBIR) program to enhance situational awareness and decision support for Warfighters operating in Chemical and Biological (CB) contested environments. The objective is to develop tactical visualization tools that efficiently integrate, visualize, and communicate tactical data, with a focus on Human-Machine Interface concepts and significant advantages in size, weight, and power (SWAP) demands. Proposed technologies may include augmented reality, sensor visualization, or unique end-user devices, and must comply with Integrated Sensor Architecture (ISA) standards and the Tactical Assault Kit (TAK) Software Development Kit (SDK). The opportunity is currently in the pre-release phase, with an open date of December 10, 2025, and a close date of December 31, 2025, for applications. Interested parties can find more information and submit proposals through the DOD SBIR website.
    Novel Sampling Tickets for Surface Enhanced Raman Spectroscopy (SERS) of Chemical and Biological (CB) Threat Materials -
    DOD
    The Department of Defense (DOD) is seeking innovative solutions through the Small Business Innovation Research (SBIR) program for the development of novel sampling tickets designed for Surface Enhanced Raman Spectroscopy (SERS) to detect chemical and biological (CB) threat materials. The primary objective is to create physically semi-porous, flexible coupons that enhance the sensitivity and selectivity of existing handheld Raman detectors, which currently face challenges in identifying trace amounts of hazardous substances from various surfaces in operational environments. This initiative is crucial for improving the capabilities of military units in detecting a range of threats, including nerve agents and toxins, thereby enhancing battlefield safety and operational effectiveness. Interested parties should note that the solicitation number is CBD254-006, with a release date of September 3, 2025, and proposals are due by December 31, 2025. For more information, please visit the DOD SBIR website at https://www.dodsbirsttr.mil/topics-app/.
    Far Forward Manufacturing of CBRN Sensors -
    DOD
    The Department of Defense (DoD) is seeking proposals for the Far Forward Manufacturing (FFM) of Chemical, Biological, Radiological, and Nuclear (CBRN) sensors, as outlined in solicitation number CBD254-008. The objective is to accelerate the production of compact and economical CBRN sensors that require minimal logistical footprints, enabling real-time threat detection for warfighters while reducing reliance on complex supply chains through advanced manufacturing techniques such as 3D printing and biomanufacturing. This initiative is critical for ensuring force readiness and adaptability in modern warfare, with potential dual-use applications in commercial sectors like clinical diagnostics and environmental sensing. Interested parties should note that Phase I proposals are due by December 31, 2025, with potential funding of up to $500,000 available for successful Phase II performers who secure additional non-SBIR/STTR funding.
    Acoustic-based UAS Rainbow Oscillation Refraction Architecture (AURORA) -
    DOD
    The Department of Defense, specifically the Special Operations Command (SOCOM), is seeking innovative research and development proposals for the Acoustic-based UAS Rainbow Oscillation Refraction Architecture (AURORA) under the SBIR program. The objective is to create an acoustic-based communication system that enables small uncrewed aerial systems (sUAS) within a swarm to communicate and determine their relative positions using sound generated by their propellers as a carrier wave. This technology is crucial for military applications where multiple drones operate in close proximity without relying on GPS or radio frequencies, enhancing their operational effectiveness and safety. Interested parties should prepare to submit their proposals by December 31, 2025, with the feasibility study phase (Phase I) focusing on system design options and achievable data rates, followed by prototype development in Phase II. For more details, visit the solicitation agency's website at https://www.dodsbirsttr.mil/topics-app/.
    Space-Based Interceptors for Boost-Phase Missile Defense in the Endo-Atmospheric Region -
    DOD
    The U.S. Space Force (USSF) is soliciting innovative solutions for space-based interceptors (SBIs) capable of conducting boost-phase missile defense within the endo-atmospheric region, specifically below 120 km altitude. The initiative aims to address critical capability gaps by developing compact, high-performance platforms that enable rapid, precise, and survivable engagements from space, focusing on high-G propulsion systems, advanced seekers, and low-size, weight, and power (SWaP) interceptors integrated into space vehicles. This effort is crucial for establishing a layered missile defense architecture and enhancing national security against evolving missile threats. Interested parties should prepare Direct-to-Phase-II proposals, as Phase I awards will not be made, with applications due by December 31, 2025. For more information, visit the solicitation link at https://www.dodsbirsttr.mil/topics-app/.
    Silencing with Acoustic Rainbow Emitters (SWARE) -
    DOD
    The Department of Defense, specifically the Special Operations Command (SOCOM), is seeking innovative research and development proposals for a low-cost Acoustic Rainbow Emitter (ARE) aimed at significantly reducing the acoustic signature of Unmanned Aerial Systems (UAS). The primary objective is to create an ARE that can redirect and alter the frequencies of a UAS's acoustic emissions, achieving at least a 50% reduction in audibility, while ensuring the system is adaptable to various UAS platforms and maintains a low visual signature. This technology is crucial for enhancing the stealth capabilities of Special Operations Forces during tactical operations. Interested parties should note that the solicitation number is SOCOM254-008, with a release date of September 3, 2025, and applications due by December 31, 2025. For further details, please visit the official solicitation link at https://www.dodsbirsttr.mil/topics-app/.
    Integrated Deployable Microsensors for Chemical Detection -
    DOD
    The Department of Defense (DoD) is seeking proposals for the development of Integrated Deployable Microsensors for Chemical Detection, aimed at providing early warning of chemical threats. The objective is to create a low size, weight, power, and cost (SWaP-C) microsensor capable of detecting chemical weapons agents and pharmaceutical-based agents in vapor and aerosol forms within a critical timeframe of 10 minutes. This technology is crucial for enhancing rapid response and decision-making in both military and civilian contexts, particularly for first responders in environmental detection and health monitoring. Proposals are due by December 31, 2025, with the opportunity opening on December 10, 2025, and further details can be found at the DoD SBIR website.
    Space-Based Interceptors for Hypersonic Glide Vehicle Threats -
    DOD
    The United States Space Force (USSF) is seeking innovative solutions for the development of space-based interceptors (SBIs) designed to defeat hypersonic glide vehicle (HGV) threats during their midcourse or glide phases of flight. This initiative is part of a broader strategy to establish a layered missile defense architecture that integrates advanced sensing, autonomy, and kinetic interception capabilities, focusing on compact, high-performance interceptors that can operate in extreme thermal environments and manage unpredictable trajectories. The opportunity is structured as a Direct-to-Phase II effort, requiring applicants to demonstrate prior feasibility and provide a comprehensive development timeline, with key deadlines set for proposal submission by December 31, 2025. Interested parties can find more information and submit proposals through the official solicitation portal at https://www.dodsbirsttr.mil/topics-app/.
    Complex Geometries for Extended Wear Respirators Towards Regenerable Particulate Matter Protection -
    DOD
    The Department of Defense is seeking innovative solutions through the SBIR program to develop a rugged, 3D-printable, PFAS-free particulate filtration impactor system for extended-wear respirators in military operational environments. The objective is to create a regenerable filtration system that effectively reduces particulate matter (PM10 and PM2.5) exposure, addressing current limitations such as discomfort, clogging, and single-use constraints, while ensuring minimal breathing resistance during aerobic activities. This technology is crucial for protecting warfighters from cardiovascular and pulmonary diseases associated with high airborne particulate levels. Interested parties should note that the solicitation is set to open on December 10, 2025, with applications due by December 31, 2025, and further details can be found at the provided source link.