Electrically tunable Bragg gratings in single mode polymer optical fiber

K. Kalli; H.L. Dobb; D.J. Webb; M. Komodromos; C. Themistos; G.D. Peng; Q. Fang; I.W. Boyd

doi:10.1364/OL.32.000214

Electrically tunable Bragg gratings in single mode polymer optical fiber

K. Kalli^*, H.L. Dobb, D.J. Webb, M. Komodromos, C. Themistos, G.D. Peng, Q. Fang, I.W. Boyd

^*Corresponding author for this work

Aston Institute of Photonic Technologies (AiPT)

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

Abstract

We present what is to our knowledge the first demonstration of a tunable fiber Bragg grating device in polymer optical fiber that utilizes a thin-film resistive heater deposited on the surface of the fiber. The polymer fiber was coated via photochemical deposition of a Pd/Cu metallic layer with a procedure induced by vacuum-ultraviolet radiation at room temperature. The resulting device, when wavelength tuned via joule heating, underwent a wavelength shift of 2 nm for a moderate input power of 160 mW, a wavelength to input power coefficient of-13.4 pm/mW, and a time constant of 1.7 s^-1.

Original language	English
Pages (from-to)	214–216
Number of pages	3
Journal	Optics Letters
Volume	32
Issue number	3
Early online date	12 Jan 2007
DOIs	https://doi.org/10.1364/OL.32.000214
Publication status	Published - 1 Feb 2007

Bibliographical note

© 2007 Optical Society of America
This paper was published in Optics letters and is made available as an electronic reprint with the permission of OSA. The paper can be found at the following URL on the OSA website: http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-32-3-214. Systematic or multiple reproduction or distribution to multiple locations via electronic or other means is prohibited and is subject to penalties under law.

Keywords

tunable fiber Bragg grating device
polymer optical fiber
thin-film resistive heater
surface
fiber
photochemical deposition
Pd/Cu metallic layer
vacuum-ultraviolet radiation

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10.1364/OL.32.000214

Electrically tunable Bragg gratings in single-mode polymer optical fiber
© 2007 Optical Society of America This paper was published in Optics letters and is made available as an electronic reprint with the permission of OSA. The paper can be found at the following URL on the OSA website: http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-32-3-214. Systematic or multiple reproduction or distribution to multiple locations via electronic or other means is prohibited and is subject to penalties under law.
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http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-32-3-214

Cite this

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title = "Electrically tunable Bragg gratings in single mode polymer optical fiber",

abstract = "We present what is to our knowledge the first demonstration of a tunable fiber Bragg grating device in polymer optical fiber that utilizes a thin-film resistive heater deposited on the surface of the fiber. The polymer fiber was coated via photochemical deposition of a Pd/Cu metallic layer with a procedure induced by vacuum-ultraviolet radiation at room temperature. The resulting device, when wavelength tuned via joule heating, underwent a wavelength shift of 2 nm for a moderate input power of 160 mW, a wavelength to input power coefficient of-13.4 pm/mW, and a time constant of 1.7 s-1.",

keywords = "tunable fiber Bragg grating device, polymer optical fiber, thin-film resistive heater, surface, fiber, photochemical deposition, Pd/Cu metallic layer, vacuum-ultraviolet radiation",

author = "K. Kalli and H.L. Dobb and D.J. Webb and M. Komodromos and C. Themistos and G.D. Peng and Q. Fang and I.W. Boyd",

note = "{\textcopyright} 2007 Optical Society of America This paper was published in Optics letters and is made available as an electronic reprint with the permission of OSA. The paper can be found at the following URL on the OSA website: http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-32-3-214. Systematic or multiple reproduction or distribution to multiple locations via electronic or other means is prohibited and is subject to penalties under law.",

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AU - Dobb, H.L.

AU - Webb, D.J.

AU - Komodromos, M.

AU - Themistos, C.

AU - Peng, G.D.

AU - Fang, Q.

AU - Boyd, I.W.

N1 - © 2007 Optical Society of America This paper was published in Optics letters and is made available as an electronic reprint with the permission of OSA. The paper can be found at the following URL on the OSA website: http://www.opticsinfobase.org/ol/abstract.cfm?URI=ol-32-3-214. Systematic or multiple reproduction or distribution to multiple locations via electronic or other means is prohibited and is subject to penalties under law.

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N2 - We present what is to our knowledge the first demonstration of a tunable fiber Bragg grating device in polymer optical fiber that utilizes a thin-film resistive heater deposited on the surface of the fiber. The polymer fiber was coated via photochemical deposition of a Pd/Cu metallic layer with a procedure induced by vacuum-ultraviolet radiation at room temperature. The resulting device, when wavelength tuned via joule heating, underwent a wavelength shift of 2 nm for a moderate input power of 160 mW, a wavelength to input power coefficient of-13.4 pm/mW, and a time constant of 1.7 s-1.

AB - We present what is to our knowledge the first demonstration of a tunable fiber Bragg grating device in polymer optical fiber that utilizes a thin-film resistive heater deposited on the surface of the fiber. The polymer fiber was coated via photochemical deposition of a Pd/Cu metallic layer with a procedure induced by vacuum-ultraviolet radiation at room temperature. The resulting device, when wavelength tuned via joule heating, underwent a wavelength shift of 2 nm for a moderate input power of 160 mW, a wavelength to input power coefficient of-13.4 pm/mW, and a time constant of 1.7 s-1.

KW - tunable fiber Bragg grating device

KW - polymer optical fiber

KW - thin-film resistive heater

KW - surface

KW - fiber

KW - photochemical deposition

KW - Pd/Cu metallic layer

KW - vacuum-ultraviolet radiation

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JO - Optics Letters

JF - Optics Letters

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Electrically tunable Bragg gratings in single mode polymer optical fiber

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Keywords

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