Towards Polarization-Independent Four-Wave Mixing in Dispersion Engineered AlGaAs-on-Insulator Nano-Waveguide

Minhao Pu; Luisa Ottaviano; Elizaveta Semenova; Kresten Yvind

doi:10.1109/ECOC.2017.8345909

Towards Polarization-Independent Four-Wave Mixing in Dispersion Engineered AlGaAs-on-Insulator Nano-Waveguide

Minhao Pu, Luisa Ottaviano, Elizaveta Semenova, Kresten Yvind

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

Abstract

We demonstrate a polarization-independent continuous wave four-wave mixing conversion bandwidth of 70 nm (1530-1600 nm) in a dispersion engineered high-index contrast AlGaAs-on-insulator nano-waveguide. We obtain constant conversion efficiency over 175 nm for the TE mode.

Original language	English
Title of host publication	Proceedings of 2017 European Conference on Optical Communication (ECOC)
Number of pages	3
Publisher	IEEE
Publication date	2017
Pages	3 pp.
ISBN (Print)	978-1-5386-5624-2
DOIs	https://doi.org/10.1109/ECOC.2017.8345909
Publication status	Published - 2017
Event	43rd European Conference and Exhibition on Optical Communications (ECOC 2017) - The Swedish Exhibition & Congress Centre, Gothenburg, Sweden Duration: 17 Sept 2017 → 21 Sept 2017

Conference

Conference	43rd European Conference and Exhibition on Optical Communications (ECOC 2017)
Location	The Swedish Exhibition & Congress Centre
Country/Territory	Sweden
City	Gothenburg
Period	17/09/2017 → 21/09/2017

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10.1109/ECOC.2017.8345909

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title = "Towards Polarization-Independent Four-Wave Mixing in Dispersion Engineered AlGaAs-on-Insulator Nano-Waveguide",

abstract = "We demonstrate a polarization-independent continuous wave four-wave mixing conversion bandwidth of 70 nm (1530-1600 nm) in a dispersion engineered high-index contrast AlGaAs-on-insulator nano-waveguide. We obtain constant conversion efficiency over 175 nm for the TE mode.",

author = "Minhao Pu and Luisa Ottaviano and Elizaveta Semenova and Kresten Yvind",

year = "2017",

doi = "10.1109/ECOC.2017.8345909",

language = "English",

isbn = "978-1-5386-5624-2",

pages = "3 pp.",

booktitle = "Proceedings of 2017 European Conference on Optical Communication (ECOC)",

publisher = "IEEE",

address = "United States",

note = "43rd European Conference and Exhibition on Optical Communications (ECOC 2017), ECOC2017 ; Conference date: 17-09-2017 Through 21-09-2017",

}

Pu, M, Ottaviano, L, Semenova, E & Yvind, K 2017, Towards Polarization-Independent Four-Wave Mixing in Dispersion Engineered AlGaAs-on-Insulator Nano-Waveguide. in Proceedings of 2017 European Conference on Optical Communication (ECOC). IEEE, pp. 3 pp., 43rd European Conference and Exhibition on Optical Communications (ECOC 2017), Gothenburg, Sweden, 17/09/2017. https://doi.org/10.1109/ECOC.2017.8345909

Towards Polarization-Independent Four-Wave Mixing in Dispersion Engineered AlGaAs-on-Insulator Nano-Waveguide. / Pu, Minhao; Ottaviano, Luisa; Semenova, Elizaveta et al.
Proceedings of 2017 European Conference on Optical Communication (ECOC). IEEE, 2017. p. 3 pp.

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

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T1 - Towards Polarization-Independent Four-Wave Mixing in Dispersion Engineered AlGaAs-on-Insulator Nano-Waveguide

AU - Pu, Minhao

AU - Ottaviano, Luisa

AU - Semenova, Elizaveta

AU - Yvind, Kresten

PY - 2017

Y1 - 2017

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AB - We demonstrate a polarization-independent continuous wave four-wave mixing conversion bandwidth of 70 nm (1530-1600 nm) in a dispersion engineered high-index contrast AlGaAs-on-insulator nano-waveguide. We obtain constant conversion efficiency over 175 nm for the TE mode.

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DO - 10.1109/ECOC.2017.8345909

M3 - Article in proceedings

SN - 978-1-5386-5624-2

SP - 3 pp.

BT - Proceedings of 2017 European Conference on Optical Communication (ECOC)

PB - IEEE

T2 - 43rd European Conference and Exhibition on Optical Communications (ECOC 2017)

Y2 - 17 September 2017 through 21 September 2017

ER -

Towards Polarization-Independent Four-Wave Mixing in Dispersion Engineered AlGaAs-on-Insulator Nano-Waveguide

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