Abstract
Fiber-optic communication systems predominantly when employ in the nonlinear regime, generally do not perform truly as theory would speculate. This paper researched the theoretical model, power budget and transmission power penalties of the high capacity long haul optical network under the influence of nonlinear impairments. The presume model is affirmed using important nonlinear factors like effective area, launch power, received power, refractive index and length of the fiber. The power budget and transmission performance of the high capacity long haul optical network are analyzed on the basis of bit error rate and optical signal noise to ratio against launch power, length of the fiber, effective area and nonlinear refractive index. The simulation results manifest significant impact of nonlinear impairments on power budget and transmission power penalties of the high capacity long haul optical networks.
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