Silicon optical fibres - past, present, and future

Silicon optical fibres - past, present, and future

This paper reviews the past, present and prospective future of silicon optical fibres. The incorporation of silicon with its rich optoelectronic functionality into existing glass fibre technologies presents a route to controlling and manipulating the transmitted light in an unprecedented manner - op...

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Bibliographic Details
Published in:Advances in physics: X Vol. 1; no. 1; pp. 114 - 127
Main Authors: Peacock, A. C., Gibson, U. J., Ballato, J.
Format: Journal Article
Language:English
Published: Abingdon Taylor & Francis 02-01-2016
Taylor & Francis Ltd
Subjects:
42.70.Nq: Optical Materials: Other nonlinear optical materials; photorefractive and semiconductor materials
42.81.Bm: Fiber optics: Fabrication, cladding, and splicing
42.81.Dp: Fiber optics: Propagation, scattering, and losses; solitons
81.05.Cy: Materials science: Elemental semiconductors
fibre fabrication
fibre materials
Glass fibers
Optical fibers
Optical fibres
Optoelectronics
semiconductor materials
Silicon
silicon photonics
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Summary:This paper reviews the past, present and prospective future of silicon optical fibres. The incorporation of silicon with its rich optoelectronic functionality into existing glass fibre technologies presents a route to controlling and manipulating the transmitted light in an unprecedented manner - opening the door to new and wide-ranging applications. Currently, there are two main fabrication approaches to producing these fibres - one involving chemical deposition inside glass capillary templates and the other a more traditional drawing tower technique starting from a rod-in-tube preform - each of which offers different advantages in terms of the material, geometry and waveguiding properties. As 2016 represents the 10th anniversary of the first silicon optical fibre, it is timely to evaluate and speculate on the future of this technology - in all its forms.
ISSN:2374-6149
2374-6149
DOI:10.1080/23746149.2016.1146085