High-temperature-resistant chemical composition Bragg gratings in Er3+-doped optical fiber

Trpkovski, S; Kitcher, DJ; Baxter, GW; Collins, SE; Wade, SA

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Author

Trpkovski, S; Kitcher, DJ; Baxter, GW; Collins, SE; Wade, SA

Date

2005-03-15

Source Title

Optics Letters

Publisher

OPTICAL SOC AMER

University of Melbourne Author/s

Trpkovski, Steven

Affiliation

Electrical and Electronic Engineering

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Document Type

Journal Article

Citations

Trpkovski, S., Kitcher, D. J., Baxter, G. W., Collins, S. E. & Wade, S. A. (2005). High-temperature-resistant chemical composition Bragg gratings in Er3+-doped optical fiber. OPTICS LETTERS, 30 (6), pp.607-609. https://doi.org/10.1364/OL.30.000607.

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URI

http://hdl.handle.net/11343/26460

DOI

10.1364/OL.30.000607

Description

C1 - Journal Articles Refereed

Abstract

Chemical composition gratings (CCGs), unlike standard fiber Bragg gratings (FBGs), do not suffer a significant decrease in reflectance or an irreversible wavelength shift when they are exposed to elevated temperatures. To date, the growth of CCGs has been related to the fluorine content of the fibers in which they are written. It is shown that FBGs with high thermal stability, resembling CCGs, can be fabricated in Er3+-doped optical fibers that do not contain any fluorine.

Keywords

Optics and Opto-electronic Physics ; Physical Sciences

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