Abstract
Exposing an optical fiber core to the measurand surrounding the fiber is often used to enhance the sensitivity of an optical fiber sensor. This paper reports on the rapid fabrication of microstructures in an optical fiber using a CO2 laser system which help exposing the optical fiber core to the measurand. The direct-write CO2 laser system used is originally designed for engraving the polymeric material. Fabrications of microstructures such as in-fiber microhole, D-shaped fiber, in-fiber microchannel, side-sliced fiber and tapered fiber were attempted. The microstructures in the fibers were examined using a SEM and an optical microscope. Quality of microstructures shown by the SEM images and promising results from fluorescence sensor tests using in-fiber microchannels of 100μm width, 210μm depth and 10mm length show the prospect of this method for use in optical fiber sensor development. The direct-write CO2 laser system is a flexible and fast machining tool for fabricating microstructures in an optical fiber, and can possibly be a replacement of the time consuming chemical etching and polishing methods used for microstructure fabrications of optical the fiber sensors reported in other literatures.
Highlights
The optical sensor is ubiquitous in today’s industry, existing to fill niches left by the electronic sensor, but in some cases it has taken over the electronic sensor as the mainstream sensor of choice due to its versatility
Major attributes of the fiber optic sensor are its dielectric property, intrinsic safety of a passive medium, immunity from electromagnetic interferences (EMI) and environmental noise, better sensitivity than many existing techniques, chemical inertness, light weight, small size and ease of installation afforded by its flexible geometry
If the laser beam is scanned along an optical fiber, microstructures will be created in the fiber
Summary
The optical sensor is ubiquitous in today’s industry, existing to fill niches left by the electronic sensor, but in some cases it has taken over the electronic sensor as the mainstream sensor of choice due to its versatility. Major attributes of the fiber optic sensor are its dielectric property, intrinsic safety of a passive medium, immunity from electromagnetic interferences (EMI) and environmental noise, better sensitivity than many existing techniques, chemical inertness, light weight, small size and ease of installation afforded by its flexible geometry. The most common fiber optic sensor and the easiest to demodulate are the intensity based sensor, which the intensity of light in the guided mode of the fiber is modulated by changes in the external environment [2].
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