Integration of highly probabilistic sources into optical quantum architectures: perpetual quantum computation
arXiv:1102.0370 · doi:10.1088/1367-2630/13/9/095001
Abstract
In this paper we introduce a design for an optical topological cluster state computer constructed exclusively from a single quantum component. Unlike previous efforts we eliminate the need for on demand, high fidelity photon sources and detectors and replace them with the same device utilised to create photon/photon entanglement. This introduces highly probabilistic elements into the optical architecture while maintaining complete specificity of the structure and operation for a large scale computer. Photons in this system are continually recycled back into the preparation network, allowing for a arbitrarily deep 3D cluster to be prepared using a comparatively small number of photonic qubits and consequently the elimination of high frequency, deterministic photon sources.
19 pages, 13 Figs (2 Appendices with additional Figs.). Comments welcome