Generation of complex quantum states via integrated frequency combs

Christian Reimer; Michael Kues; Piotr Roztocki; Benjamin Wetzel; Brent E. Little; Sai T. Chu; Lucia Caspani; David J. Moss; Roberto Morandotti

doi:10.23919/DATE.2017.7927012

Generation of complex quantum states via integrated frequency combs

Christian Reimer, Michael Kues, Piotr Roztocki, Benjamin Wetzel, Brent E. Little, Sai T. Chu, Lucia Caspani, David J. Moss, Roberto Morandotti^*

^*Corresponding author for this work

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

Abstract

The generation of optical quantum states on an integrated platform will enable low cost and accessible advances for quantum technologies such as secure communications and quantum computation. We demonstrate that integrated quantum frequency combs (based on high-Q microring resonators made from a CMOS-compatible, high refractive-index glass platform) can enable, among others, the generation of heralded single photons, cross-polarized photon pairs, as well as bi- and multi-photon entangled qubit states over a broad frequency comb covering the S, C, L telecommunications band, constituting an important cornerstone for future practical implementations of photonic quantum information processing.

Original language	English
Title of host publication	Proceedings of the 2017 Design, Automation and Test in Europe, DATE 2017
Publisher	IEEE
Pages	336-337
ISBN (Print)	9783981537093
DOIs	https://doi.org/10.23919/DATE.2017.7927012
Publication status	Published - 11 May 2017
Event	20th Design, Automation and Test in Europe, DATE 2017 - Swisstech, Lausanne, Switzerland Duration: 27 Mar 2017 → 31 Mar 2017 http://www.date-conference.com

Conference

Conference	20th Design, Automation and Test in Europe, DATE 2017
Place	Switzerland
City	Swisstech, Lausanne
Period	27/03/17 → 31/03/17
Internet address	http://www.date-conference.com

Research Keywords

Four-wave mixing
Integrated optics devices
Nonlinear optics
Quantum optics

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10.23919/DATE.2017.7927012

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@inproceedings{9444d5ed5e474e8caeb73ed1435c923d,

title = "Generation of complex quantum states via integrated frequency combs",

abstract = "The generation of optical quantum states on an integrated platform will enable low cost and accessible advances for quantum technologies such as secure communications and quantum computation. We demonstrate that integrated quantum frequency combs (based on high-Q microring resonators made from a CMOS-compatible, high refractive-index glass platform) can enable, among others, the generation of heralded single photons, cross-polarized photon pairs, as well as bi- and multi-photon entangled qubit states over a broad frequency comb covering the S, C, L telecommunications band, constituting an important cornerstone for future practical implementations of photonic quantum information processing.",

keywords = "Four-wave mixing, Integrated optics devices, Nonlinear optics, Quantum optics",

author = "Christian Reimer and Michael Kues and Piotr Roztocki and Benjamin Wetzel and Little, {Brent E.} and Chu, {Sai T.} and Lucia Caspani and Moss, {David J.} and Roberto Morandotti",

year = "2017",

month = may,

day = "11",

doi = "10.23919/DATE.2017.7927012",

language = "English",

isbn = "9783981537093",

pages = "336--337",

booktitle = "Proceedings of the 2017 Design, Automation and Test in Europe, DATE 2017",

publisher = "IEEE",

address = "United States",

note = "20th Design, Automation and Test in Europe, DATE 2017 ; Conference date: 27-03-2017 Through 31-03-2017",

url = "http://www.date-conference.com",

}

Reimer, C, Kues, M, Roztocki, P, Wetzel, B, Little, BE, Chu, ST, Caspani, L, Moss, DJ & Morandotti, R 2017, Generation of complex quantum states via integrated frequency combs. in Proceedings of the 2017 Design, Automation and Test in Europe, DATE 2017., 7927012, IEEE, pp. 336-337, 20th Design, Automation and Test in Europe, DATE 2017, Swisstech, Lausanne, Switzerland, 27/03/17. https://doi.org/10.23919/DATE.2017.7927012

Generation of complex quantum states via integrated frequency combs. / Reimer, Christian; Kues, Michael; Roztocki, Piotr et al.
Proceedings of the 2017 Design, Automation and Test in Europe, DATE 2017. IEEE, 2017. p. 336-337 7927012.

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

TY - GEN

T1 - Generation of complex quantum states via integrated frequency combs

AU - Reimer, Christian

AU - Kues, Michael

AU - Roztocki, Piotr

AU - Wetzel, Benjamin

AU - Little, Brent E.

AU - Chu, Sai T.

AU - Caspani, Lucia

AU - Moss, David J.

AU - Morandotti, Roberto

PY - 2017/5/11

Y1 - 2017/5/11

N2 - The generation of optical quantum states on an integrated platform will enable low cost and accessible advances for quantum technologies such as secure communications and quantum computation. We demonstrate that integrated quantum frequency combs (based on high-Q microring resonators made from a CMOS-compatible, high refractive-index glass platform) can enable, among others, the generation of heralded single photons, cross-polarized photon pairs, as well as bi- and multi-photon entangled qubit states over a broad frequency comb covering the S, C, L telecommunications band, constituting an important cornerstone for future practical implementations of photonic quantum information processing.

AB - The generation of optical quantum states on an integrated platform will enable low cost and accessible advances for quantum technologies such as secure communications and quantum computation. We demonstrate that integrated quantum frequency combs (based on high-Q microring resonators made from a CMOS-compatible, high refractive-index glass platform) can enable, among others, the generation of heralded single photons, cross-polarized photon pairs, as well as bi- and multi-photon entangled qubit states over a broad frequency comb covering the S, C, L telecommunications band, constituting an important cornerstone for future practical implementations of photonic quantum information processing.

KW - Four-wave mixing

KW - Integrated optics devices

KW - Nonlinear optics

KW - Quantum optics

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M3 - RGC 32 - Refereed conference paper (with host publication)

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BT - Proceedings of the 2017 Design, Automation and Test in Europe, DATE 2017

PB - IEEE

T2 - 20th Design, Automation and Test in Europe, DATE 2017

Y2 - 27 March 2017 through 31 March 2017

ER -

Generation of complex quantum states via integrated frequency combs

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