Producing a scalable sensory precision worth ness of optical sources including PMD measures for high speed optical networks

Abstract

Optical sources still require an exhaustive and regressive research approach to measure the key parameters leading towards the ultimate robust refining of spectral properties. The scalability in such measurements when the parametric margins have a close comparative difference produces a vital clarity in simulative results. The effect of polarization mode dispersion (PMD) remains a leading consideration in the practical development of a fair square communication system. A white light interferometric set up has been successfully used to characterize optical sources in connection with the effects encountered due to PMD which causes deteriorating setbacks to high speed fiber optic networks. A precise optical test set-up has been developed in the lab to provide an exact picture of the state of polarization through a certain fiber length. The set-up is used to measure PMD for single mode and hi-bi specialty fibers. Rather valuable application results have been achieved for the different optical devices, which reflect the exact measuring levels and comparisons of the effective application in the fields of communication and the precision sensory tangibility of the optical fiber.