Journal
NATURE PHYSICS
Volume 5, Issue 3, Pages 189-192Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/NPHYS1199
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Funding
- EU ICT/FET program COMPAS
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'Schrodinger cat' states of light(1), defined as quantum superpositions of quasi-classical coherent states, have recently emerged as an alternative to single-photon qubits for quantum-information processing(2-6). Their richer structure provides significant advantages for quantum teleportation, universal quantum computation, high-precision measurements and fundamental tests of quantum physics(7-13). Local superpositions of free-propagating coherent states have been realized experimentally, but their applications were so far limited by their extreme sensitivity to losses, and by the lack of quantum gates for coherent qubit rotations. Here, we demonstrate a simple approach to generating strongly entangled non-local superpositions of coherent states, using a very lossy quantum channel. Such superpositions should be useful for implementing coherent qubit-rotation gates, and for teleporting these qubits over long distances. The generation scheme may be extended to creating entangled coherent superpositions with arbitrarily large amplitudes.
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