Polarization mode dispersion
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Bibliographic Information
Polarization mode dispersion
(Optical and fiber communications reports)
Springer, c2005
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Note
Includes bibliographical references
Description and Table of Contents
Description
the model for low-PMD ?bers; Nicolas Gisin covered the increasingly important topic of the interaction of PMD with polarization dependent loss. Other topics that were included in the school were: "PMD models," which was covered byAntonio Mecozzi and Mark Shtaif; "Interaction of PMD with nonlinearity and chromatic dispersion," which was covered by Curtis Menyuk; "PMD measurement techniques," which was covered by Paul Williams and by Marco Schiano in two separate lectures; "Spatially resolved measurement of ?ber polarization properties," which was covered by Luca PalmieriandAndreaGaltarossa;"PMDimpactonopticalsystems,"whichwascovered by Magnus Karlsson and by Francesco Matera in two separate lectures; "Polarization effects in recirculating loops," which was covered by Brian Marks, Gary Carter, and Yu Sun; "PMD Emulation," which was covered byAlan Willner and Michelle Hauer; and, ?nally, "Applications of importance sampling to PMD," which was covered by Gino Biondini, Bill Kath, and Sarah Fogal. Dipak Chowdhury worked withArtis and VPI-two producers at that time of commercial software for modeling optical ?ber communications systems-to present a lecture that covered numerical modeling of PMD.
Additionally, we had lectures on special topics by Hermann Haus, Jim Gordon, Herwig Kogelnik, and Carlo Someda. Finally, we had a poster session, which gave the lecturers the opportunity to learn something from our participants. The feedback that we received from the participants and the lecturers was ov- whelmingly positive. This success was due to the great time and energy that all the instructors put into their lectures.
Table of Contents
to polarization mode dispersion in optical systems.- Modelling of polarization mode dispersion in optical communications systems.- Statistical properties of polarization mode dispersion.- Three Representations of Polarization Mode Dispersion.- The inverse PMD problem.- Numerical modeling of PMD.- Applications of importance sampling to polarization mode dispersion.- PMD & PDL.- Interaction of nonlinearity and polarization mode dispersion.- PMD measurement techniques and how to avoid the pitfalls.- PMD measurements on installed fibers and polarization sensitive components.- Reflectometric measurements of polarization properties in optical-fiber links.- PMD impact on optical systems: Single- and multichannel effects.- Polarization effects and performance of fiber optic recirculating loops.- PMD compensation techniques.- Low-PMD spun fibers.- PMD emulation.
by "Nielsen BookData"