Research Stories
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By directly imaging material failure in 3D, this real-time technique could help scientists improve reactor safety and longevity.
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Tools build on years of research at Lincoln Laboratory to develop a rapid brain health screening capability and may also be applicable to civilian settings such as sporting events and medical offices.
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By combining several cutting-edge imaging technologies, a new microscope system could enable unprecedentedly deep and precise visualization of metabolic and neuronal activity, potentially even in human
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Researchers studied air flow characteristics, sensor performance, and mitigation strategies within this complex subway system.
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The ultrabroadband infrared frequency comb could be used for chemical detection in portable spectrometers or high-resolution remote sensors.
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Neural Jacobian Fields, developed by MIT CSAIL researchers, can learn to control any robot from a single camera, without any other sensors.
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Lincoln Laboratory’s 3D microwave imaging technology for detecting concealed threats was integrated into HEXWAVE, commercially developed by Liberty Defense.
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Developed to analyze new semiconductors, the system could streamline the development of more powerful solar panels.
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Electrodes coated with DNA could enable inexpensive tests with a long shelf-life, which could detect many diseases and be deployed in the doctor’s office or at home.
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By leveraging reflections from wireless signals like Wi-Fi, the system could allow robots to find and manipulate items that are blocked from view.