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Polymer optical waveguides with reduced in-plane bend loss for electro-optical PCBs

Polymer optical waveguides with reduced in-plane bend loss for electro-optical PCBs
Polymer optical waveguides with reduced in-plane bend loss for electro-optical PCBs
In-plane bend loss represents the greatest commercial inhibitor to deploying multimode optical waveguides on densely populated electro-optical printed circuit boards (OPCB) as the minimum bend radii currently possible are too large to be practical in common designs. We present a concept and fabrication method for creating novel polymer optical waveguide structures with reduced bend losses to enable higher density routing on an OPCB. These nested core waveguide structures comprise a core surrounded by a thin shell of cladding, which allows for two-fold modal containment by first a conventional low refractive index contrast (LIC) boundary followed by a secondary high refractive index contrast (HIC) boundary. The purpose of this is to reduce the in-plane bend losses incurred on tightly routed optical channels, while not incurring prohibitive dispersion, sidewall scattering and optical crosstalk penalties. We have designed and fabricated nested core multimode polymer waveguides, evaluated their performance in comparison to conventional step-index waveguides and simulated these structures using the beam propagation method. Preliminary results are presented of our measurements and simulations.
Pitwon, R.
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Smith, C.R.
3fc58a4e-ecd6-455e-840b-275efa52fba1
Wang, K.
2b399d1b-c3f1-4863-b78b-dd9135ef7532
Graham-Jones, J.
93a03ee7-2d37-4aa9-a1c6-3e4e991a316f
Selviah, D.R.
cac516a9-63d2-45ff-828e-40f71716cb7d
Halter, M.
49920530-0e0f-4664-affa-d2ca54c769e0
Worrall, A.
04331709-5746-4415-bf8f-5f64e30b64af
Pitwon, R.
30bc955e-74b5-47d9-b8ec-7373cf263572
Smith, C.R.
3fc58a4e-ecd6-455e-840b-275efa52fba1
Wang, K.
2b399d1b-c3f1-4863-b78b-dd9135ef7532
Graham-Jones, J.
93a03ee7-2d37-4aa9-a1c6-3e4e991a316f
Selviah, D.R.
cac516a9-63d2-45ff-828e-40f71716cb7d
Halter, M.
49920530-0e0f-4664-affa-d2ca54c769e0
Worrall, A.
04331709-5746-4415-bf8f-5f64e30b64af

Pitwon, R., Smith, C.R., Wang, K., Graham-Jones, J., Selviah, D.R., Halter, M. and Worrall, A. (2012) Polymer optical waveguides with reduced in-plane bend loss for electro-optical PCBs. Photonics West 2012, , San Francisco, United States. 21 - 26 Jan 2012.

Record type: Conference or Workshop Item (Paper)

Abstract

In-plane bend loss represents the greatest commercial inhibitor to deploying multimode optical waveguides on densely populated electro-optical printed circuit boards (OPCB) as the minimum bend radii currently possible are too large to be practical in common designs. We present a concept and fabrication method for creating novel polymer optical waveguide structures with reduced bend losses to enable higher density routing on an OPCB. These nested core waveguide structures comprise a core surrounded by a thin shell of cladding, which allows for two-fold modal containment by first a conventional low refractive index contrast (LIC) boundary followed by a secondary high refractive index contrast (HIC) boundary. The purpose of this is to reduce the in-plane bend losses incurred on tightly routed optical channels, while not incurring prohibitive dispersion, sidewall scattering and optical crosstalk penalties. We have designed and fabricated nested core multimode polymer waveguides, evaluated their performance in comparison to conventional step-index waveguides and simulated these structures using the beam propagation method. Preliminary results are presented of our measurements and simulations.

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More information

Published date: January 2012
Venue - Dates: Photonics West 2012, , San Francisco, United States, 2012-01-21 - 2012-01-26
Organisations: Optoelectronics Research Centre
Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 362994
URI: http://eprints.soton.ac.uk/id/eprint/362994
PURE UUID: 8466d8af-0055-4ad5-9741-4fbfd2305a46

Catalogue record

Date deposited: 17 Mar 2014 14:35
Last modified: 08 Jan 2022 00:27

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Contributors

Author: R. Pitwon
Author: C.R. Smith
Author: K. Wang
Author: J. Graham-Jones
Author: D.R. Selviah
Author: M. Halter
Author: A. Worrall

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