In quantum cryptography, encoding entangled photons with particular spin states is a technique that ensures data transmitted over fiber networks arrives at its destination without being intercepted or changed. However, as each entangled pair is usually only capable of being encoded with one state (generally the direction of its polarization), the amount of data carried is limited to just one quantum bit per photon. To address this limitation, researchers have now devised a way to "hyperentangle" photons that they say can increase the amount of data carried by a photon pair by as much as 32 times.
.. Continue Reading New dimensions of quantum information added through hyperentanglementSection: Science
Tags:
- NIST
- University of Maryland
- Quantum Information
- Photon
- Entanglement
- UCLA
- Quantum Computing
- Columbia University
- Quantum memory storage to help quantum communications go the distance
- Researchers achieve long-distance light to matter quantum teleportation
- Scientists teleport quantum information across the room
- Experiment suggests that reality doesn't exist until it is measured
- Cesium atoms get a shake-up to create excitation in superfluid
- Australian researchers simulate a time-traveling photon
from Gizmag Emerging Technology Magazine http://ift.tt/1IuquB8
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