By Bishnu P. Pal
The e-book offers a finished, lucid, and transparent creation to the realm of guided wave optical parts and units. Bishnu good friend has collaborated with the various maximum minds in optics to create a very inclusive treatise in this modern subject. Written by way of leaders within the box, this booklet provides state-of-the-art learn and crucial info for execs, researchers, and scholars on rising subject matters like microstructured fibers, broadband fibers, polymer fiber parts and waveguides, acousto-optic interactions in fibers, better order mode fibers, nonlinear and parametric method in fibers, progressive results of erbium doped and Raman fiber amplifiers in DWDM and CATV networks, all-fiber community branching part expertise systems like fused fiber couplers, fiber gratings, and side-polished fiber half-couplers, arrayed waveguides, optical MEMS, fiber sensing applied sciences together with security, civil structural healthiness tracking, and gyroscope functions. * available creation to wide selection of issues on the subject of validated and rising optical components.* Single-source reference for graduate scholars in optical engineering and newcomer practitioners, desirous about components.* wide bibliographical info incorporated so readers can get a extensive creation to various optical elements and their purposes in an optical community.
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Additional info for Guided Wave Optical Components and Devices: Basics, Technology, and Applications (Optics and Photonics)
Example text
32)]. km! Thus, repeater spacing of 1550-nm links based on either of these fiber types would be chromatic dispersion limited for a given data rate. 2 Characteristicsof fibers. 652 fibers all over the world by switching over transmission through these at the 1550-nm window. 652 fibers and simply replace the 1310-nm transmitter with a corresponding transmitter operating at 1550 nm. 652 fibers would imply an accumulation of unacceptably high chromatic dispersion at E D F A sites (ideally spaced approximately every 80120 km) due to the fiber's D being +17 ps/nm-km, though such a large D could substantially reduce the possibility of potentially harmful nonlinear effects.
Opt. 3, pp. 1182-1184 (1964). 24. E. Desurvire, Erbium Doped Fiber Amplifier: Principle And Applications, Wiley-Interscience, New York (1994). 25. I. H. R. N. N. Payne, "High sensitivity optical preamplifier at 10 Gbit/s employing a low noise composite EDFA with 46 dB gain," in Post-deadline session, Opt. Amp. and their Applications, OSA Topical Meeting, Washington, DC, Post-deadline Paper PD13, (1992). 26. K. Srivastava, Y. W. Sulhoff, C. Wolf, M. Zirngibl, R. R. A. P. A. R. M. L. Zyskind, J. A.
B. P. Pal, and K. 55 ~m in a dual concentric core fiber, Electron. Lett. 36, pp. 1689-1691 (2000). K. Thyagarajan and C. Kakkar, Fiber design for broadband, gain flattened Raman fiber amplifier, IEEE Photon. Tech. Letts. 15, pp. 1701-1703 (2003). P. K. Varshney, and K. Thyagarajan, A dispersion flattening dispersion compensating fiber design for broadband dispersion compensation, Fib. Int. Opt. 20, pp. 21-27 (2001). P. Pal and K. 652 single-mode fibers, Opt. Comm. 201, pp. 335-344 (2002). K. P.
