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Paper Information

Journal:   IRANIAN JOURNAL OF POLYMER SCIENCE AND TECHNOLOGY (PERSIAN)   JUNE-JULY 2004 , Volume 17 , Number 2 (ISSUE NO. 70); Page(s) 79 To 89.
 
Paper: 

Investigation Of Polymer Optical Fibers' Properties And Determination Of Their Optimum Transmission Waveguide Range And Comparison With Glass Optical Fibers

 
 
Author(s):  Zahedi F., Siesler H.W.
 
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Abstract: 
It is about three decades that glass optical fibers have found applications in electronic and telecommunication industries. The laws of governing transmission of optical signals are compiled, and due to the revelation of weak points in glass fibers including their utilization for limited range of electromagnetic waves, and with the rapid developments in polymer science, scientists began to utilize polymer fibers and it is about a decade that polymer optical fibers are used in industry. Glass fibers, for their specific structure, are only used for electromagnetic waves in the range of 1400-1600 nm( near infrared range) but polymer optical fibers, due to their varieties, can be used in different ranges of optical waves. Polymer optical fibers have brought about radical changes in spectroscopy. Polymer optical fibers have made distant infrared spectroscopy workable. By utilization of polymer optical fibers, chemical reactions and their electronic signals are recorded as spectrum while the spectrometer could be quite far from the location of chemical reactions. With this method, the distant control of dangerous chemical reactions such as a poisonous reaction has been possible. In this paper, the potentialities of polymer optical fibers in comparison with glass fibers and also characteristics of some polymer optical fibers have been investigated. Meanwhile, the physical fundamentals of transmission of light in polymer optical fibers such as attenuation, refraction and total reflection of light are described. At the end by utilization of a special type of polymer optical fibers, synthesis of N' (3,4-dichlorophenyl)-N,N'-dimethylure a with dimethyl amine and 3,4-ichlorophenylisocyanate in the range of near infrared electromagnetic wave (NIR)from the beginning till the end is controlled. In this method the amount of changes in 1473 cm-1 band for first overtone 2 NH with respect to time as an indication for the start and the end of a reaction is evaluated.
 
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APA: Copy

ZAHEDI, F., & Siesler, H. (2004). INVESTIGATION OF POLYMER OPTICAL FIBERS' PROPERTIES AND DETERMINATION OF THEIR OPTIMUM TRANSMISSION WAVEGUIDE RANGE AND COMPARISON WITH GLASS OPTICAL FIBERS. IRANIAN JOURNAL OF POLYMER SCIENCE AND TECHNOLOGY (PERSIAN), 17(2 (ISSUE NO. 70)), 79-89. https://www.sid.ir/en/journal/ViewPaper.aspx?id=40455



Vancouver: Copy

ZAHEDI F., Siesler H.W.. INVESTIGATION OF POLYMER OPTICAL FIBERS' PROPERTIES AND DETERMINATION OF THEIR OPTIMUM TRANSMISSION WAVEGUIDE RANGE AND COMPARISON WITH GLASS OPTICAL FIBERS. IRANIAN JOURNAL OF POLYMER SCIENCE AND TECHNOLOGY (PERSIAN). 2004 [cited 2022January29];17(2 (ISSUE NO. 70)):79-89. Available from: https://www.sid.ir/en/journal/ViewPaper.aspx?id=40455



IEEE: Copy

ZAHEDI, F., Siesler, H., 2004. INVESTIGATION OF POLYMER OPTICAL FIBERS' PROPERTIES AND DETERMINATION OF THEIR OPTIMUM TRANSMISSION WAVEGUIDE RANGE AND COMPARISON WITH GLASS OPTICAL FIBERS. IRANIAN JOURNAL OF POLYMER SCIENCE AND TECHNOLOGY (PERSIAN), [online] 17(2 (ISSUE NO. 70)), pp.79-89. Available: https://www.sid.ir/en/journal/ViewPaper.aspx?id=40455.



 
 
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