Title :
Photonic crystal fibers
Author :
West, J.A. ; Venkataramam, N. ; Smith, C.M. ; Gallagher, M.T.
Author_Institution :
Corning Inc., NY, USA
Abstract :
In recent years several new classes of fibers have emerged based on the same basic technological platform - air/silica microstructures. Though they are often referred to collectively these fibers can be divided into three very different classes: air-clad core fibers, effective-index fibers and photonic band-gap fibers. Although all act as waveguides, these groups of fibers exhibit different optical properties leading to different applications. We briefly discuss the air-clad core and effective index fibers before concentrating on the more unusual photonic band-gap fiber. With losses as low as 2.6 dB/km for effective index photonic crystal fibers (PCF) and 1 dB/m for band-gap fibers, this technology is beginning to show its potential for becoming a platform for more than just unique fiber-based components.
Keywords :
air; optical fibre losses; photonic band gap; reviews; silicon compounds; SiO2; air-clad core fibers; air-silica microstructured fibers; band-gap fibers; effective index PCF; effective-index fibers; fiber-based components; losses; optical properties; photonic band-gap fibers; photonic crystal fibers; waveguides; Crystal microstructure; Optical design; Optical devices; Optical fiber losses; Optical fibers; Optical materials; Optical waveguides; Photonic band gap; Photonic crystal fibers; Silicon compounds;
Conference_Titel :
Optical Communication, 2001. ECOC '01. 27th European Conference on
Print_ISBN :
0-7803-6705-7
DOI :
10.1109/ECOC.2001.989118
