Efficient quantum logic circuits: or, How I Learned to Stop Worrying and Love Hilbert Space

A. G. White; M. Pereira de Almeida; M. Barbieri; D. N. Biggerstaff; R. B. Dalton; A. Gilchrist; G. Gillett; D. F. V. James; D. F. V. James; N. K. Langford; B. N. Lanyon; K. J. Resch; K. J. Resch; T. Weinhold

doi:10.1364/ICQI.2007.IFB3

International Conference on Quantum Information
OSA Technical Digest (CD) (Optica Publishing Group, 2007),
paper IFB3
•https://doi.org/10.1364/ICQI.2007.IFB3

Efficient quantum logic circuits: or, How I Learned to Stop Worrying and Love Hilbert Space

A. G. White, M. Pereira de Almeida, M. Barbieri, D. N. Biggerstaff, R. B. Dalton, A. Gilchrist, G. Gillett, D. F. V. James, N. K. Langford, B. N. Lanyon, K. J. Resch, and T. Weinhold

International Conference on Quantum Information 2007

Rochester, New York United States
13–15 June 2007
ISBN: 1-55752-845-4

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ICQI Oral Session IX (IFB)

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A. G. White, M. P. de Almeida, M. Barbieri, D. N. Biggerstaff, R. B. Dalton, A. Gilchrist, G. Gillett, D. F. V. James, N. K. Langford, B. N. Lanyon, K. J. Resch, and T. Weinhold, "Efficient quantum logic circuits: or, How I Learned to Stop Worrying and Love Hilbert Space," in International Conference on Quantum Information, OSA Technical Digest (CD) (Optica Publishing Group, 2007), paper IFB3.

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Abstract

We demonstrate significantly compacted quantum algorithms and demonstrate a Fock-state filter by going outside the qubit corner of Hilbert space. We obtain a complete error budget for an entangling gate when driven with independent photons.

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