Structure and Needed Properties of Reasonable Polarization Mode Dispersion Emulators for Coherent Optical Fiber Transmission
Reinhold Noe, Benjamin Koch

TL;DR
This paper introduces a physically accurate and cost-effective polarization mode dispersion emulator for coherent optical fiber systems, capable of simulating various PMD levels and polarization events including lightning strikes.
Contribution
It proposes a novel PMDE design with N DGD sections and general elliptical retarders, enabling realistic emulation of polarization effects with low implementation cost.
Findings
Proposed PMDE can emulate PMD of 20 to 200 ps.
Uses N=2 sections for simplicity and flexibility.
Capable of simulating polarization events at up to 20 Mrad/s.
Abstract
This paper proposes a scientifically reasonable polarization mode dispersion (PMD) emulator (PMDE) for coherent optical fiber transmission. Guidelines are physically correct modeling of the polarization-dispersive fiber, the time-variable polarization transformations occurring in there, including emulation of polarization events caused by lightning strikes, the adoption of acceptable compromise to keep implementation cost low enough and competitive industrial basis for production of such PMDE. We propse a PMDE consisting of N differential group delay (DGD) sections placed between N+1 time-variable general retarders or polarization scramblers. These should be general elliptical retarders, capable of changing polarization with rates up to 20 Mrad/s on the Poincar\'e sphere. That should include bursts of polarization rotations forth and back at up to 20 Mrad/s. The DGD sections can be…
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Taxonomy
TopicsOptical Network Technologies · Advanced Photonic Communication Systems · Advanced Fiber Laser Technologies
