Top Highlights
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Award Recognition: Seven technologies from MIT Lincoln Laboratory received 2025 R&D 100 Awards for innovative solutions that enhance U.S. national security, industry, and society.
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Game-Changing Innovations: Key technologies include the TOSSIT sensor for detecting chemical threats, the WiSPR radar system for protecting armored vehicles, and advanced computing methods like the bumpless chiplet integration.
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Revolutionizing Communications: The MAScOT laser communications terminal and LL RF-SAM AI model significantly enhance military communication capabilities, enabling secure, high-speed data transmission and better situational awareness in contested environments.
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Collaborative Development: These technologies reflect extensive collaboration with government and industry partners, addressing urgent needs on the battlefield and advancing frontiers in computing and materials science.
Lincoln Laboratory Technologies Win Seven R&D 100 Awards for 2025
MIT Lincoln Laboratory celebrated a significant achievement as seven of its technologies won the prestigious 2025 R&D 100 Awards. This annual competition honors the most innovative technologies and products of the year, showcasing advancements that impact both industry and national security.
“Winning an R&D 100 Award highlights the exceptional creativity and effort of our scientists and engineers,” said Melissa Choi, director of Lincoln Laboratory. The awarded technologies exemplify Lincoln Laboratory’s commitment to turning innovative ideas into real-world solutions.
Among the winners, the Tactical Optical Spherical Sensor for Interrogating Threats (TOSSIT) stands out. This throwable sensor detects hazardous chemicals and alerts users via a mobile app. Using an internal fan and dye card, TOSSIT identifies threats like nerve agents and toxic dust. Principal investigator Richard Kingsborough noted its ability to meet urgent needs for chemical detection in critical environments.
Another notable technology, the Wideband Selective Propagation Radar (WiSPR), enhances communication for U.S. Army armored vehicles. This advanced radar system detects threats while enabling covert communication. Program manager Christopher Serino emphasized the rapid development of WiSPR to address modern military challenges.
The laboratory’s Bumpless Integration of Chiplets to AI-Optimized Fabric presents a breakthrough in semiconductor technology. This approach allows for faster and more efficient integration of chiplets, aligning with the growing demand for powerful data processing.
Additionally, the Quantum Diamond Magnetic Cryomicroscope advances magnetic field imaging, crucial for superconducting electronics research. This technology promises to revolutionize high-performance computing through direct visualization of magnetic behavior.
In the realm of communications, the Lincoln Laboratory Radio Frequency Situational Awareness Model (LL RF-SAM) leverages AI to enhance military awareness of electromagnetic signals. This tool effectively identifies signal sources, supporting mission-critical decisions.
Moreover, the Modular, Agile, Scalable Optical Terminal (MAScOT) represents a leap for space communications. Its flexible design facilitates high-speed laser communications in various scenarios, exemplifying the fusion of innovation and practicality.
Finally, the Protected Anti-jam Tactical SATCOM Key Management System (KMS) Prototype addresses the critical need for secure military communications. It enables robust key distribution, ensuring operational security even in contested environments.
These awards affirm Lincoln Laboratory’s role in shaping future technology developments. As these innovations move from concept to practical application, they promise to enhance capabilities for U.S. national security and industry at large.
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