6533b837fe1ef96bd12a1eca

RESEARCH PRODUCT

Role of Polarization Mode Dispersion on Modulational Instability in Optical Fibers

E. SeveJosselin GarnierF. Kh. AbdullaevStefan Wabnitz

subject

PhysicsModulational instabilityPolarization mode dispersionQuantum mechanicsDispersion (optics)Nonlinear opticsPolarization (waves)InstabilityElectromagnetic radiationEigenvalues and eigenvectors

description

We introduce the theory of modulational instability (MI) of electromagnetic waves in fibers with random polarization mode dispersion. Applying a linear stability analysis and stochastic calculus, we show that the MI gain spectrum reads as the maximal eigenvalue of a constant effective matrix. In the limiting cases of small or large fluctuations, we give explicit expressions for the MI gain spectra. In the general configurations, we give the explicit form of the effective matrix and numerically compute the maximal eigenvalue. In the anomalous dispersion regime, polarization dispersion widens the unstable bandwidth. Depending on the type of variations of the birefringence parameters, polarization dispersion reduces or enhances the MI gain peak. In the normal dispersion regime, random effects may extend the instability domain to the whole spectrum of modulations. The linear stability analysis is confirmed by numerical simulation of the full stochastic coupled nonlinear Schrodinger equations.

yearjournalcountryeditionlanguage
2001-01-01
http://hdl.handle.net/11379/23218