Nonlinearity and dispersion control in small core lead silicate holey fibers by structured element stacking

J.Y.Y. Leong; S. Asimakis; F. Poletti; P. Petropoulos; X. Feng; R.C. Moore; K.E. Frampton; T.M. Monro; H. Ebendorff-Heidepriem; W.H. Loh; D.J. Richardson

Optical Fiber Communication Conference and Exposition and The National Fiber Optic Engineers Conference
Technical Digest (CD) (Optica Publishing Group, 2006),
paper OTuH1

Nonlinearity and dispersion control in small core lead silicate holey fibers by structured element stacking

J.Y.Y. Leong, S. Asimakis, F. Poletti, P. Petropoulos, X. Feng, R.C. Moore, K.E. Frampton, T.M. Monro, H. Ebendorff-Heidepriem, W.H. Loh, and D.J. Richardson

Optical Fiber Communication Conference 2006

Anaheim, California United States
5–10 March 2006
ISBN: 1-55752-802-0

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Nonlinear Fibers (OTuH)

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J. Y. Y. Leong, S. Asimakis, F. Poletti, P. Petropoulos, X. Feng, R. C. Moore, K. E. Frampton, T. M. Monro, H. Ebendorff-Heidepriem, W. H. Loh, and D. J. Richardson, "Nonlinearity and dispersion control in small core lead silicate holey fibers by structured element stacking," in Optical Fiber Communication Conference and Exposition and The National Fiber Optic Engineers Conference, Technical Digest (CD) (Optica Publishing Group, 2006), paper OTuH1.

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Abstract

We report a new fabrication approach that combines the benefits of extrusion and stacking, which is capable of realising high-nonlinearity lead-silicate glass holey fibers with tailorable dispersion characteristics. We also present optimised fiber designs offering dispersion- shifted and flattened performance at 1.55μm.

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