Physics – Quantum Physics
Scientific paper
2004-08-06
Phys. Rev. A Vol. 71, 060310(R) (2005)
Physics
Quantum Physics
5 pages, 3 figures, broader introduction and improved scalability of cluster state generation
Scientific paper
10.1103/PhysRevA.71.060310
We propose a practical, scalable, and efficient scheme for quantum computation using spatially separated matter qubits and single photon interference effects. The qubit systems can be NV-centers in diamond, Pauli-blockade quantum dots with an excess electron or trapped ions with optical transitions, which are each placed in a cavity and subsequently entangled using a double-heralded single-photon detection scheme. The fidelity of the resulting entanglement is extremely robust against the most important errors such as detector loss, spontaneous emission, and mismatch of cavity parameters. We demonstrate how this entangling operation can be used to efficiently generate cluster states of many qubits, which, together with single qubit operations and readout, can be used to implement universal quantum computation. Existing experimental parameters indicate that high fidelity clusters can be generated with a moderate constant overhead.
Barrett Sean D.
Kok Pieter
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