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Subwavelength engineered structures for integrated photonics

Subwavelength engineered structures for integrated photonics
Subwavelength engineered structures for integrated photonics
We report our advances in development of subwavelength engineered structures for integrated photonics. This unique technology allows synthesis of an effective photonic medium with an unprecedented control of material properties, constituting a powerful tool for a designer of photonic integrated circuits. By locally engineering the refractive index of silicon by forming a pattern of holes at the subwavelength scale it is possible to manipulate the flow of light in silicon photonic waveguides [1–8]. We have demonstrated a number of subwavelength engineered devices operating at telecom wavelengths, including fiber-chip couplers, waveguide crossings, WDM multiplexers, ultra-fast optical switches, athermal waveguides, evanescent field sensors, polarization rotators, transceiver hybrids and colorless interference couplers [3]. The subwavelength metamaterial concept has been adopted by industry (IBM) for fiber-chip coupling [5] and subwavelength engineered structures are likely to become key building blocks for the next generation of integrated photonic circuits. We present an overview of different implementations of these structures in silicon photonic integrated circuits, such as high-efficiency fiber-chip couplers, wavelength multiplexers, microspectrometers, waveguide crossovers, ultra-broadband splitters and mid-infrared waveguide components, to name a few.
Cheben, P.
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Schmid, J. H.
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Xu, D.-X.
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Janz, S.
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Lapointe, J.
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Wang, S.
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Vachon, M.
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Benediković, D.
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Alonso-Ramos, C.
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Vivien, L.
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Halir, R.
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Ortega-Moñux, A.
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Wangüemert-Pérez, G.
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Molina-Fernández, I.
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Dado, M.
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Müllerová, J.
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Soler Penadés, J.
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Nedeljković, Miloš
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Mashanovich, G. Z.
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Cheben, P.
9a2e25a5-6aa0-414e-a061-23416efedebc
Schmid, J. H.
de954bee-9975-423f-8e10-0d35a4759f02
Xu, D.-X.
b8936c3c-8ff4-4649-9ca9-b39f70660f63
Janz, S.
13ac48fa-d2a2-4eca-b1a3-72dacbd88ecb
Lapointe, J.
05cca97f-c371-4ae9-9747-af3a5c6b38fb
Wang, S.
0f256e20-a3e5-4295-9b62-adf4f84e2f6d
Vachon, M.
6033d188-3ad1-40e1-aa15-59c251f5e1aa
Benediković, D.
1ae5b7b3-770d-4919-8581-f37180e9d830
Alonso-Ramos, C.
81ef371b-5744-490d-bdf3-5c840a996901
Vivien, L.
46ab526e-8292-4336-b83e-0fbc6d099461
Halir, R.
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Ortega-Moñux, A.
2187ad4e-6b90-4354-83ce-da964b85e0fe
Wangüemert-Pérez, G.
229f6978-0222-49e5-a707-905992ee8e63
Molina-Fernández, I.
156ad1de-c209-43ce-91e4-e4106dcb1edf
Dado, M.
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Müllerová, J.
687e1ce7-506d-454c-a311-a6933a220cf9
Soler Penadés, J.
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Nedeljković, Miloš
b64e21c2-1b95-479d-a35c-3456dff8c796
Mashanovich, G. Z.
c806e262-af80-4836-b96f-319425060051

Cheben, P., Schmid, J. H., Xu, D.-X., Janz, S., Lapointe, J., Wang, S., Vachon, M., Benediković, D., Alonso-Ramos, C., Vivien, L., Halir, R., Ortega-Moñux, A., Wangüemert-Pérez, G., Molina-Fernández, I., Dado, M., Müllerová, J., Soler Penadés, J., Nedeljković, Miloš and Mashanovich, G. Z. (2016) Subwavelength engineered structures for integrated photonics. Progress in Electromagnetic Research Symposium, , Shanghai, China. 08 - 11 Aug 2016. 1 pp . (doi:10.1109/piers.2016.7735235).

Record type: Conference or Workshop Item (Paper)

Abstract

We report our advances in development of subwavelength engineered structures for integrated photonics. This unique technology allows synthesis of an effective photonic medium with an unprecedented control of material properties, constituting a powerful tool for a designer of photonic integrated circuits. By locally engineering the refractive index of silicon by forming a pattern of holes at the subwavelength scale it is possible to manipulate the flow of light in silicon photonic waveguides [1–8]. We have demonstrated a number of subwavelength engineered devices operating at telecom wavelengths, including fiber-chip couplers, waveguide crossings, WDM multiplexers, ultra-fast optical switches, athermal waveguides, evanescent field sensors, polarization rotators, transceiver hybrids and colorless interference couplers [3]. The subwavelength metamaterial concept has been adopted by industry (IBM) for fiber-chip coupling [5] and subwavelength engineered structures are likely to become key building blocks for the next generation of integrated photonic circuits. We present an overview of different implementations of these structures in silicon photonic integrated circuits, such as high-efficiency fiber-chip couplers, wavelength multiplexers, microspectrometers, waveguide crossovers, ultra-broadband splitters and mid-infrared waveguide components, to name a few.

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More information

e-pub ahead of print date: 11 August 2016
Published date: 10 November 2016
Venue - Dates: Progress in Electromagnetic Research Symposium, , Shanghai, China, 2016-08-08 - 2016-08-11
Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 471958
URI: http://eprints.soton.ac.uk/id/eprint/471958
DOI: doi:10.1109/piers.2016.7735235
PURE UUID: d5aeafaf-be8b-49e7-bd42-9ab9065df1ee
ORCID for J. Soler Penadés: ORCID iD orcid.org/0000-0002-1706-8533
ORCID for Miloš Nedeljković: ORCID iD orcid.org/0000-0002-9170-7911

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Date deposited: 23 Nov 2022 17:30
Last modified: 17 Mar 2024 03:35

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Contributors

Author: P. Cheben
Author: J. H. Schmid
Author: D.-X. Xu
Author: S. Janz
Author: J. Lapointe
Author: S. Wang
Author: M. Vachon
Author: D. Benediković
Author: C. Alonso-Ramos
Author: L. Vivien
Author: R. Halir
Author: A. Ortega-Moñux
Author: G. Wangüemert-Pérez
Author: I. Molina-Fernández
Author: M. Dado
Author: J. Müllerová
Author: J. Soler Penadés ORCID iD
Author: Miloš Nedeljković ORCID iD
Author: G. Z. Mashanovich

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