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Efficient and Tunable Entanglement Method Developed

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INNSBRUCK, Austria, May 25 — To construct a viable quantum network, individual computers will need a way to reliably transmit information to each other. This will require an understanding of how light and matter interact at a quantum level, an understanding that is now much more robust. A research team at the University of Innsbrook's Institute for Experimental Physics, led by Rainer Blatt, Tracy Northup and Andreas Stute, trapped a calcium ion in a Paul trap, a device that uses DC and oscillating AC electric fields to trap ions, and placed it between two highly reflective mirrors. By shining a laser on the ion,...Read full article

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    Published: May 2012
    Andreas StuteAustriaAustrian Science Fundcalcium ionCommunicationsentanglementEuropeEuropean Unionfiber opticsInnsbruckmirrorsOpticsPaul trapquantum computingquantum InternetRainer BlattResearch & TechnologyTracy NorthupUniversity of InnsbruckLasers

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