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NASA Headquarters
Developed a space-and-wave (saw) division method to de-multiplex low energy quantum key distribution (qkd) photons from high energy free space optical transmissions. The method exploits available double-clad fiber optic cable with 9um core fiber diameter and 105um 1st cladding outer diameter.
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NASA Headquarters
Developed a method of using entangled-photon pairs to produce highly secure mobile communications that require mere milliwatts of power. Conventional gas argon-ion laser sources are too large, expensive, and power-intensive to use in portable applications. By contrast, glenn's patented optical quantum communication method produces entangled-photon pairs approximately a million times more efficiently than conventional sources, in a system that is small and light enough to be portable.
Posted Date
Sep 8, 2025
Due Date
Jul 17, 2026
Release: Sep 8, 2025
NASA Headquarters
Close: Jul 17, 2026
Developed a method of using entangled-photon pairs to produce highly secure mobile communications that require mere milliwatts of power. Conventional gas argon-ion laser sources are too large, expensive, and power-intensive to use in portable applications. By contrast, glenn's patented optical quantum communication method produces entangled-photon pairs approximately a million times more efficiently than conventional sources, in a system that is small and light enough to be portable.
AvailableNASA Headquarters
Revolutionize quantum communication by addressing a fundamental challenge: the unwanted production of multiple entangled photon pairs that introduce noise and degrade transmission. This innovative quantum entanglement source array generates single pairs of entangled photons at a very high rate while inhibiting the production of multiple pairs. By eliminating excess photon pairs, the new source array significantly reduces noise in quantum systems, increasing the successful qubit transmission rate by a factor of 10 to 100.
Posted Date
Sep 8, 2025
Due Date
Jul 17, 2026
Release: Sep 8, 2025
NASA Headquarters
Close: Jul 17, 2026
Revolutionize quantum communication by addressing a fundamental challenge: the unwanted production of multiple entangled photon pairs that introduce noise and degrade transmission. This innovative quantum entanglement source array generates single pairs of entangled photons at a very high rate while inhibiting the production of multiple pairs. By eliminating excess photon pairs, the new source array significantly reduces noise in quantum systems, increasing the successful qubit transmission rate by a factor of 10 to 100.
AvailableNASA Headquarters
Provide an environment that is neither too dry nor too wet. Ponds was developed to improve water and nutrient delivery for plants grown on the international space station (iss). The technology uses an innovative wicking material to passively link a water/nutrient reservoir to a growth cylinder where seeds are germinated and plants are produced. Ponds addresses limitations with existing iss plant-production technology by providing consistent delivery of water/nutrients, improving oxygen transfer to plants, and allowing users to determine how much water is being applied.
Posted Date
Sep 8, 2025
Due Date
Jul 17, 2026
Release: Sep 8, 2025
NASA Headquarters
Close: Jul 17, 2026
Provide an environment that is neither too dry nor too wet. Ponds was developed to improve water and nutrient delivery for plants grown on the international space station (iss). The technology uses an innovative wicking material to passively link a water/nutrient reservoir to a growth cylinder where seeds are germinated and plants are produced. Ponds addresses limitations with existing iss plant-production technology by providing consistent delivery of water/nutrients, improving oxygen transfer to plants, and allowing users to determine how much water is being applied.
AvailableNASA Headquarters
Developed a handheld digital microscope to fill the critical microscopy needs of human space exploration by providing flight crews in situ hematological diagnostic and tracking ability to assess and monitor crew health in the absence of gravity. Although currently in use aboard the international space station (iss) to work in conjunction with nasa s handheld slide staining system, the microscope may have numerous applications here on earth. The microscope is entirely self-contained, and includes optics, illumination, high-resolution imaging hardware, wireless enabled single board computer with scalable power and memory, and rechargeable battery.
Posted Date
Aug 27, 2025
Due Date
Jul 17, 2026
Release: Aug 27, 2025
NASA Headquarters
Close: Jul 17, 2026
Developed a handheld digital microscope to fill the critical microscopy needs of human space exploration by providing flight crews in situ hematological diagnostic and tracking ability to assess and monitor crew health in the absence of gravity. Although currently in use aboard the international space station (iss) to work in conjunction with nasa s handheld slide staining system, the microscope may have numerous applications here on earth. The microscope is entirely self-contained, and includes optics, illumination, high-resolution imaging hardware, wireless enabled single board computer with scalable power and memory, and rechargeable battery.
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AI-predicted best buyers in the org
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