Experimental Construction of Optical Multi-qubit Cluster States From Bell States
arXiv:quant-ph/0501036 · doi:10.1103/PhysRevA.73.022330
Abstract
Cluster states serve as the central physical resource for the measurement-based quantum computation. We here present a simple experimental demonstration of the scalable cluster-state-construction scheme proposed by Browne and Rudolph. In our experiment, three-photon cluster states are created from two Bell states using linear optical devices. By observing a violation of three-particle Mermin inequality of $|< \textit{A}>| = 3.10\pm0.03 $, we also for the first time report a genuine three-photon entanglement. In addition, the entanglement properties of the cluster states are examined under $Ï_z$ and $Ï_x$ measurements on a qubit.
4 pages, 4 figures, submitted