Physics – Quantum Physics
Scientific paper
2011-03-28
Physical Review Letters 107, 030505 (2011)
Physics
Quantum Physics
4 pages + 7 supplemental-info pages, 6+1 figures, accepted by Physical Review Letters. One minor revision to main text. One er
Scientific paper
Scalability and coherence are two essential requirements for the experimental implementation of quantum information and quantum computing. Here, we report a breakthrough toward scalability: the simultaneous generation of a record 15 quadripartite entangled cluster states over 60 consecutive cavity modes (Qmodes), in the optical frequency comb of a single optical parametric oscillator. The amount of observed entanglement was constant over the 60 Qmodes, thereby proving the intrnisic scalability of this system. The number of observable Qmodes was restricted by technical limitations, and we conservatively estimate the actual number of similar clusters to be at least three times larger. This result paves the way to the realization of large entangled states for scalable quantum information and quantum computing.
Bloomer Russell
Miwa Yoshichika
Pfister Olivier
Pysher Matthew
Shahrokhshahi Reihaneh
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