Novel broadband dispersion compensating photonic crystal fibers: Applications in high-speed transmission systems

Birks, 2001, Photonic crystal fibers: an endless variety, IEICE Trans Electron, 585 Knight, 2003, Photonic crystal fibers, Nature, 847, 10.1038/nature01940 Nielsen, 2004, Low-loss photonic crystal fibers for transmission systems and their dispersion properties, Opt Exp, 1372, 10.1364/OPEX.12.001372 Shen, 2003, Design and optimization of photonic crystal fibers for broadband dispersion compensation, IEEE Photon Technol Lett, 540, 10.1109/LPT.2003.809322 Laegsgaard, 2004, Dispersion properties of photonic crystal fibers-issues and opportunities, Mater Res Soc Symp Proc, 797 Grüner-Nielsen, 2000, Dispersion compensating fibers, Opt Fiber Technol, 164, 10.1006/ofte.1999.0324 Li, 2004, Numerical study on dispersion compensating property in photonic crystal fibers, Acta Phys Sin, 1880 Tan, 2006, Suppression of the interactions between fibre gratings used as dispersion compensators in dense wavelength-division multiplexing systems, Chin Phys, 1819 Ni, 2004, Dual-core photonic crystal fiber for dispersion compensation, Photonics Technol Lett, 1516, 10.1109/LPT.2004.827108 Poli, 2003, Characterization of microstructured optical fibers for wideband dispersion compensation, J Opt Soc Am A, 1958, 10.1364/JOSAA.20.001958 Zsigri, 2004, A novel photonic crystal fibre design for dispersion compensation, J Opt A: Pure Appl Opt, 717, 10.1088/1464-4258/6/7/010 Gérôme, 2005, Design of dispersion-compensating fibers based on a dual-concentric-core photonic crystal fiber, Opt Lett, 2725 Yang, 2006, Broadband dispersion-compensating photonic crystal fiber, Opt Lett, 2830, 10.1364/OL.31.002830 Huttunen, 2005, Optimization of dual-core and microstructure fiber geometries for dispersion compensation and large mode area, Opt Exp, 627, 10.1364/OPEX.13.000627 Pal, 2002, Optimization of a dual-core dispersion slope compensating fiber for DWDM transmission in the 1480–1610nm band through G.652 single-mode fibers, Opt Commun, 335, 10.1016/S0030-4018(01)01705-9 Gérôme, 2005, Dual concentric core dispersion compensating fiber optimized for WDM application, Elec Lett, 116, 10.1049/el:20057505 Knight, 1996, All-silica single mode optical fiber with photonic crystal cladding, Opt Lett, 1547, 10.1364/OL.21.001547 Birks, 1997, Endlessly single-mode photonic crystal fiber, Opt Lett, 961, 10.1364/OL.22.000961 Knight, 2000, Anomalous dispersion in photonic crystal fiber, IEEE Photonics Technol Lett, 807, 10.1109/68.853507 Ferrando, 2000, Nearly zero ultraflattened dispersion in photonic crystal fibers, Opt Lett, 790, 10.1364/OL.25.000790 Hansen, 2001, Highly birefringent index-guiding photonic crystal fibers, IEEE Photonics Technol Lett, 588, 10.1109/68.924030 Broderick, 1999, Nonlinearity in holey optical fibers: measurement and future opportunities, Opt Lett, 1395, 10.1364/OL.24.001395 Mortensen, 2002, Effective area of photonic crystal fibers, Opt Exp, 341, 10.1364/OE.10.000341 Begum, 2007, Novel square photonic crystal fibers with ultra-flattened chromatic dispersion and low confinement losses, IEICE Trans Electron, 607, 10.1093/ietele/e90-c.3.607 Saitoh, 2003, Leakage loss and group velocity dispersion in air-core photonic bandgap fibers, Opt Exp, 3100, 10.1364/OE.11.003100 Nuyts, 1997, Dispersion equalization of a 10Gb/s repeater transmission system using dispersion compensating fibers, J Lightwave Technol, 31, 10.1109/50.552111 Chen, 1998, 40Gbit/s×35 ch (1.4 Tbit/s aggregate capacity) WDM transmission over 85km standard single-mode fiber, Elec Lett, 2370, 10.1049/el:19981681 Islam, 2004 Belahlou, 2002, Fiber design considerations for 40Gb/s systems, J Lightwave Technol, 2290, 10.1109/JLT.2002.806777 Fujisawa, 2006, Chromatic dispersion profile optimization of dual-concentric-core photonic crystal fibers for broadband dispersion compensation, Opt Exp, 893, 10.1364/OPEX.14.000893 Xingtao, 2008, Photonic crystal fiber for dispersion compensation, Applied Optics, 5190 Varshney, 2006, Design and analysis of a broadband dispersion compensating photonic crystal fiber Raman amplifier operating in S-band, Opt Exp, 3528, 10.1364/OE.14.003528 Florous, 2006, The role of artificial defects for engineering large effective mode area, flat chromatic dispersion, and low leakage losses in photonic crystal fibers: towards high speed reconfigurable transmission platforms, Opt Exp, 901, 10.1364/OPEX.14.000901 Schwarz, 2004, Vol. 4 Born, 1980 Zhou, 2005, Progress on low loss photonic crystal fibers, Opt Fiber Technol, 101, 10.1016/j.yofte.2004.12.002 Marcuse, 1977, Loss analysis of single-mode fiber splices, Bell Syst Tech J, 703, 10.1002/j.1538-7305.1977.tb00534.x Petermann, 1993, Constraints for fundamental-mode spot size for broadband dispersion-compensated single-mode fibres, Electron Lett, 712 Leon-Saval, 2005, Splice-free interfacing of photonic crystal fibers, Opt Lett, 1629, 10.1364/OL.30.001629 Edvold B, Gruner-Nielsen L; New technique for reducing the splice loss to dispersion compensating fiber. In: Proceedings of 22nd European Conference on Optical Communication. 1996; Paper TuP.02. Kato T, Hirano M, Fukuda K, Tada A, Onishi M, Nishimura M. Design optimization of dispersion compensating fiber for NZ-DSF considering nonlinearity and packaging performance. In: Proc Optical Fiber Communication (OFC), Anaheim, CA, 2001, pp. TuS6-1-TuS6-3. Grüner-Nielsen, 2005, Dispersion-compensating fibers, J Lightwave Technol, 3566, 10.1109/JLT.2005.855873 Agrawal, 2001