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Proceedings Paper

Infrared fibers for medium power delivery in the 10-μm region and remote spectroscopy
Author(s): Xhang Hua Zhang; Karine Le Foulgoc; Chantal Blanchetiere; Hong Li Ma; Jacques Lucas
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Paper Abstract

A new generation of infrared fibers, the TeX glass fibers, operating from 3 to 13 micrometers , exhibits a minimum attenuation of about 0.5 dB/m in the 7 - 9.5 micrometers range. A polymer coating on these fibers increases the mechanical properties and fibers with high flexibility have been obtained. CO2 laser power delivery has been performed using a TeX glass fiber. More than 2.6 W has been transmitted through a 1 meter long fiber by injecting the maximum output power of the laser. One of the most promising applications of these glass fibers is the remote spectroscopy using either evanescent wave or direct absorption analysis. These technologies provide an opportunity to realize in situ and on-line control of chemical and biological processes. Our prototype system using a FTIR spectrometer allows quantitative and qualitative detection of organic species such as alcohol, cosmetic products which have their fingerprints in the spectral region from 3 to 13 micrometers . The detection efficiency using evanescent wave absorption has been studied as a function of the fiber's diameter. It has been found that this efficiency increases very rapidly when the fiber's diameter decreases.

Paper Details

Date Published: 1 May 1995
PDF: 10 pages
Proc. SPIE 2396, Biomedical Optoelectronic Instrumentation, (1 May 1995); doi: 10.1117/12.208388
Show Author Affiliations
Xhang Hua Zhang, Univ. de Rennes I (France)
Karine Le Foulgoc, Univ. de Rennes I (France)
Chantal Blanchetiere, Univ. de Rennes I (France)
Hong Li Ma, Univ. de Rennes I (France)
Jacques Lucas, Univ. de Rennes I (France)


Published in SPIE Proceedings Vol. 2396:
Biomedical Optoelectronic Instrumentation
James A. Harrington; David M. Harris; Abraham Katzir, Editor(s)

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