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Optical Signals Measured From Space Could Enable Quantum Encryption Network

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Quantum-limited coherent measurements of optical signals were sent from a satellite in Earth’s orbit to an optical ground station over a distance of 38,600 kilometers (almost 24,000 miles). Excess noise was bound. The precise Earth-based measurement of optical signals from a satellite demonstrates the potential for a satellite-based quantum encryption network using equipment that is already in space. From the ground, researchers measured laser signals that originated from a satellite and traveled through Earth's gravitational potential and the turbulent atmosphere. The successful...Read full article

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    Published: July 2017
    Glossary
    quantum noise
    Noise generated within an optical communications system link that has both internal (dark current) and external (background noise, or noise in signal) components.
    coherent communications
    A fiber optic communications system that works on the principles of homodyning or heterodyning. The transmitting laser produces an optical wave that is modulated in amplitude, phase or frequency by the signal; at the receiver end, the incoming signal is mixed with a laser beam tuned at or near the wavelength of the transmitter (a local oscillator) and downconverted in detection to the radio-wave domain for further signal processing. Coherent transmission is expected to increase sensitivity more...
    Research & TechnologyeducationEuropeOpticsaerospaceCommunicationssecurityquantum noisequantum cryptographyoptical signalscoherent communicationsfree-space optical communicationsquantum encryptionsatellite communicationsquantum keyTech Pulse

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