Title :
Low Loss and High Bandwidth Polystyrene-Based Graded Index Polymer Optical Fiber
Author :
Makino, Kosuke ; Akimoto, Youhei ; Koike, K. ; Kondo, Atsushi ; Inoue, Akira ; Koike, Yasuharu
Author_Institution :
Grad. Sch. of Sci. & Technol., Keio Univ., Kawasaki, Japan
Abstract :
Polystyrene (PS) was selected as a costless polymer matrix for graded index polymer optical fibers (GI POFs) with low attenuation at a wavelength of 670 nm. However, fabricated PS-based GI POFs showed attenuation of more than 300 dB/km. This high attenuation PS-based GI POF had a quite broad molecular weight distribution. In contrast, a PS-based GI POF with a narrow molecular weight distribution showed low attenuation of around 160 dB/km. This is because the refractive index of PS, different from general polymers, is greatly affected by the molecular weight. The PS-based GI POF showed the high thermal stability of this low loss performance at a temperature of 70°C , despite the low glass transition temperature caused by plasticization. The measured refractive index profile was near optimum (g=2.5), and a high bandwidth of 5.8 GHz for a 50 m length was obtained.
Keywords :
glass transition; gradient index optics; molecular weight; optical fibre fabrication; optical fibre losses; optical polymers; refractive index measurement; thermal stability; PS-based GI POF; bandwidth 5.8 GHz; costless polymer matrix; graded index polymer optical fiber; high bandwidth polystyrene; low attenuation; low glass transition temperature; low loss performance; molecular weight distribution; plasticization; refractive index profile; size 50 m; temperature 70 degC; thermal stability; wavelength 670 nm; Attenuation; Bandwidth; Educational institutions; Optical fibers; Polymers; Refractive index; Thermal stability; Attenuation; graded index polymer optical fiber (GI POF); molecular weight; refractive index; thermal stability;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2013.2266671
