Integrated generation of photon pairs with all-optically reconfigurable quantum states

James G. Titchener; Alexander S. Solntsev; Andrey A. Sukhorukov

Integrated generation of photon pairs with all-optically reconfigurable quantum states

James G. Titchener, Alexander S. Solntsev, Andrey A. Sukhorukov

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › peer-review

Abstract

We propose a design for an integrated photonic circuit capable of generating photon pairs in any path entangled quantum state. Real-time switching between output quantum states can be achieved by varying classical input lasers.

Original language	English
Title of host publication	2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014
Publisher	IEEE Computer Society
Pages	652-653
Number of pages	2
ISBN (Print)	9781922107213
Publication status	Published - 2014
Event	19th OptoElectronics and Communications Conference, OECC 2014 and the 39th Australian Conference on Optical Fibre Technology, ACOFT 2014 - Melbourne, VIC, Australia Duration: 6 Jul 2014 → 10 Jul 2014

Publication series

Name	2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014

Conference

Conference	19th OptoElectronics and Communications Conference, OECC 2014 and the 39th Australian Conference on Optical Fibre Technology, ACOFT 2014
Country/Territory	Australia
City	Melbourne, VIC
Period	6/07/14 → 10/07/14

Cite this

Titchener, J. G., Solntsev, A. S., & Sukhorukov, A. A. (2014). Integrated generation of photon pairs with all-optically reconfigurable quantum states. In 2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014 (pp. 652-653). Article 6888218 (2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014). IEEE Computer Society.

Titchener, James G. ; Solntsev, Alexander S. ; Sukhorukov, Andrey A. / Integrated generation of photon pairs with all-optically reconfigurable quantum states. 2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014. IEEE Computer Society, 2014. pp. 652-653 (2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014).

@inproceedings{ceeed6fb8fbe4921a536a98c2807373c,

title = "Integrated generation of photon pairs with all-optically reconfigurable quantum states",

abstract = "We propose a design for an integrated photonic circuit capable of generating photon pairs in any path entangled quantum state. Real-time switching between output quantum states can be achieved by varying classical input lasers.",

author = "Titchener, {James G.} and Solntsev, {Alexander S.} and Sukhorukov, {Andrey A.}",

year = "2014",

language = "English",

isbn = "9781922107213",

series = "2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014",

publisher = "IEEE Computer Society",

pages = "652--653",

booktitle = "2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014",

address = "United States",

note = "19th OptoElectronics and Communications Conference, OECC 2014 and the 39th Australian Conference on Optical Fibre Technology, ACOFT 2014 ; Conference date: 06-07-2014 Through 10-07-2014",

}

Titchener, JG, Solntsev, AS & Sukhorukov, AA 2014, Integrated generation of photon pairs with all-optically reconfigurable quantum states. in 2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014., 6888218, 2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014, IEEE Computer Society, pp. 652-653, 19th OptoElectronics and Communications Conference, OECC 2014 and the 39th Australian Conference on Optical Fibre Technology, ACOFT 2014, Melbourne, VIC, Australia, 6/07/14.

Integrated generation of photon pairs with all-optically reconfigurable quantum states. / Titchener, James G.; Solntsev, Alexander S.; Sukhorukov, Andrey A.
2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014. IEEE Computer Society, 2014. p. 652-653 6888218 (2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014).

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › peer-review

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AU - Solntsev, Alexander S.

AU - Sukhorukov, Andrey A.

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N2 - We propose a design for an integrated photonic circuit capable of generating photon pairs in any path entangled quantum state. Real-time switching between output quantum states can be achieved by varying classical input lasers.

AB - We propose a design for an integrated photonic circuit capable of generating photon pairs in any path entangled quantum state. Real-time switching between output quantum states can be achieved by varying classical input lasers.

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M3 - Conference Paper

SN - 9781922107213

T3 - 2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014

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EP - 653

BT - 2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014

PB - IEEE Computer Society

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Y2 - 6 July 2014 through 10 July 2014

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Titchener JG, Solntsev AS, Sukhorukov AA. Integrated generation of photon pairs with all-optically reconfigurable quantum states. In 2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014. IEEE Computer Society. 2014. p. 652-653. 6888218. (2014 OptoElectronics and Communication Conference, OECC 2014 and Australian Conference on Optical Fibre Technology, ACOFT 2014).

Integrated generation of photon pairs with all-optically reconfigurable quantum states

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