Integrated waveguide circuits for optical quantum computing
Integrated waveguide circuits for optical quantum computing
Although practical realisation of a fully functioning quantum computer is still a long way off, recent progress both experimentally and theoretically is paving the way for possible implementations. One of the leading approaches is quantum optics, where photons are used as carriers of quantum information, and are manipulated in both linear and non-linear optical circuits. More recently, advances in integrated quantum photonics are enabling the realisation of compact and stable quantum gates and circuits. This approach provides routes to enhancing the complexity of quantum optic experiments, and ultimately towards the development of advanced quantum technologies. This study presents an overview of recent developments in the field of integrated waveguide quantum circuits. Key building blocks required for the realisation of quantum circuits are presented, and a rudimentary version of Shor's quantum factoring algorithm is demonstrated. Planar waveguide quantum circuits provide a high-performance platform from which quantum technologies and experimental quantum physics using single photons can be developed, and a new generation of quantum information and computing devices can be monolithically integrated onto a single optical chip.
94-102
Thompson, M.G.
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Politi, A.
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Matthews, J.C.F.
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O'Brien, J.L.
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March 2011
Thompson, M.G.
b1b92c69-d01a-467c-957f-0edc572d5f65
Politi, A.
cf75c0a8-d34d-4cbe-b9d5-e408c0edeeec
Matthews, J.C.F.
68d5da30-da61-44c8-93e7-4984784522b9
O'Brien, J.L.
fb052b79-aa26-4d40-a661-dd08ae0b0dc4
Thompson, M.G., Politi, A., Matthews, J.C.F. and O'Brien, J.L.
(2011)
Integrated waveguide circuits for optical quantum computing.
IET Circuits, Devices & Systems, 5 (2), .
(doi:10.1049/iet-cds.2010.0108).
Abstract
Although practical realisation of a fully functioning quantum computer is still a long way off, recent progress both experimentally and theoretically is paving the way for possible implementations. One of the leading approaches is quantum optics, where photons are used as carriers of quantum information, and are manipulated in both linear and non-linear optical circuits. More recently, advances in integrated quantum photonics are enabling the realisation of compact and stable quantum gates and circuits. This approach provides routes to enhancing the complexity of quantum optic experiments, and ultimately towards the development of advanced quantum technologies. This study presents an overview of recent developments in the field of integrated waveguide quantum circuits. Key building blocks required for the realisation of quantum circuits are presented, and a rudimentary version of Shor's quantum factoring algorithm is demonstrated. Planar waveguide quantum circuits provide a high-performance platform from which quantum technologies and experimental quantum physics using single photons can be developed, and a new generation of quantum information and computing devices can be monolithically integrated onto a single optical chip.
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Published date: March 2011
Organisations:
Quantum, Light & Matter Group
Identifiers
Local EPrints ID: 377127
URI: http://eprints.soton.ac.uk/id/eprint/377127
ISSN: 1751-858X
PURE UUID: 9335385e-6aba-46ae-9cdf-72fc9d73f267
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Date deposited: 26 May 2015 10:47
Last modified: 15 Mar 2024 03:49
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Contributors
Author:
M.G. Thompson
Author:
J.C.F. Matthews
Author:
J.L. O'Brien
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