Characterizing Fiber Bragg Grating Index Profiles to Improve the Writing Process

Author

Espejo, R. Joseph ; Svalgaard, Mikael ; Dyer, Shellee D.

Author_Institution

Nat. Inst. of Stand. & Technol., Boulder, CO

Volume

18

Issue

21

fYear

2006

Firstpage

2242

Lastpage

2244

Abstract

We demonstrate an accurate method for identifying both systematic and random errors in a fiber Bragg grating (FBG) writing system and show its application to calibration of the writing process. We first measure the FBG impulse response using low-coherence interferometry, and then we calculate the refractive index profile using layer peeling. This yields the complex longitudinal refractive index profile, which includes both the index modulation amplitude and the effective index as a function of position along the FBG. We demonstrate how this measurement can be applied to the calibration of a scanning-beam dithered phase mask FBG writing system. We demonstrate the ability to identify errors in the writing process that would not likely be found from a measurement of the FBG reflection spectrum alone

Keywords

Bragg gratings; calibration; light coherence; light interferometry; measurement errors; optical fibre testing; optical modulation; refractive index; FBG writing system; calibration; dithered phase mask; effective index; fiber Bragg grating; impulse response; index modulation amplitude; index profiles; layer peeling; low-coherence interferometry; random error; reflection spectrum; refractive index profile; scanning-beam writing system; systematic error; writing process; Amplitude modulation; Bandwidth; Bragg gratings; Calibration; Error correction; Fiber gratings; Interferometry; Refractive index; Spatial resolution; Writing; Fiber Bragg gratings (FBGs); layer peeling; low coherence interferometry; refractive index profile;

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2006.884740

Filename

1715388