High index contrast semiconductor ARROW and hybrid ARROW fibers

N. Healy; J. R. Sparks; R. R. He; P. J.A. Sazio; J. V. Badding; A. C. Peacock

doi:10.1364/OE.19.010979

High index contrast semiconductor ARROW and hybrid ARROW fibers

N. Healy, J. R. Sparks, R. R. He, P. J.A. Sazio, J. V. Badding, A. C. Peacock

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

We investigate the guidance properties of two photonic crystal fibers that have been fabricated by filling the holes of a silica template with hydrogenated amorphous silicon inclusions. The first is an all-solid fiber that guides light via an antiresonant reflecting optical waveguiding mechanism and the second is only partially filled so that it guides light by a hybrid of modified total internal reflection and antiresonant reflecting optical waveguiding. It will be shown that, by selectively filling the silica template to leave an unfilled internal ring of holes, the fiber's confinement loss can be reduced significantly. This novel fiber design in which the light guided in the silica core can be modified by the semiconductor cladding provides a route to integrating functional semiconductor fibers with existing silica fiber infrastructures.

Original language	English (US)
Pages (from-to)	10979-10985
Number of pages	7
Journal	Optics Express
Volume	19
Issue number	11
DOIs	https://doi.org/10.1364/OE.19.010979
State	Published - May 23 2011

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics

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10.1364/OE.19.010979

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title = "High index contrast semiconductor ARROW and hybrid ARROW fibers",

abstract = "We investigate the guidance properties of two photonic crystal fibers that have been fabricated by filling the holes of a silica template with hydrogenated amorphous silicon inclusions. The first is an all-solid fiber that guides light via an antiresonant reflecting optical waveguiding mechanism and the second is only partially filled so that it guides light by a hybrid of modified total internal reflection and antiresonant reflecting optical waveguiding. It will be shown that, by selectively filling the silica template to leave an unfilled internal ring of holes, the fiber's confinement loss can be reduced significantly. This novel fiber design in which the light guided in the silica core can be modified by the semiconductor cladding provides a route to integrating functional semiconductor fibers with existing silica fiber infrastructures.",

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AU - Sparks, J. R.

AU - He, R. R.

AU - Sazio, P. J.A.

AU - Badding, J. V.

AU - Peacock, A. C.

PY - 2011/5/23

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AB - We investigate the guidance properties of two photonic crystal fibers that have been fabricated by filling the holes of a silica template with hydrogenated amorphous silicon inclusions. The first is an all-solid fiber that guides light via an antiresonant reflecting optical waveguiding mechanism and the second is only partially filled so that it guides light by a hybrid of modified total internal reflection and antiresonant reflecting optical waveguiding. It will be shown that, by selectively filling the silica template to leave an unfilled internal ring of holes, the fiber's confinement loss can be reduced significantly. This novel fiber design in which the light guided in the silica core can be modified by the semiconductor cladding provides a route to integrating functional semiconductor fibers with existing silica fiber infrastructures.

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High index contrast semiconductor ARROW and hybrid ARROW fibers

Abstract

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