Parimi Hema Sree, Polavarapu Sushma Chowdary, Chandran Ramesh Kumar, Madhubalan Selvaraju, R. T. Prabu, Rashida Maher Mahmoud, S. H. Ahammad
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The signal/noise power amplitude with spectral wavelength through the fiber channel at 1300 and 1500 nm wavelength window. Signal/noise power variations are indicated with time through the fiber channel at both 1550 nm, 1300 wavelength windows. The lighted signal power value is measured through the fiber channel at 1300 and 1550 nm wavelength window. Signal/noise power variations are demonstrated with time and spectral wavelength through PIN photo receiver at 1550 and 1300 nm wavelength window. The electronic signal power value is numerically measured through PIN photo receiver through 1300 and 1550 nm wavelength window. 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Spatial light sources with various optical wavelength window for high speed broadband optical fiber channel system
Abstract This work demonstrated the spatial light sources with various optical wavelength window for high speed broadband optical fiber channel system. 3D signal index polarization configuration is clarified in x direction generated from spatial light transmitter at both wavelength window of 1300 and 1550 nm. Average radial intensity and encircled light flux distribution are simulated together against radius generated from spatial light transmitter at both wavelength window of 1300 and 1550 nm. The degree of polarization and S parameters values are clarified generated from spatial light transmitter for the specified bandwidth 100 GHz at various wavelength window of 1300 and 1500 nm. The signal/noise power amplitude with spectral wavelength through the fiber channel at 1300 and 1500 nm wavelength window. Signal/noise power variations are indicated with time through the fiber channel at both 1550 nm, 1300 wavelength windows. The lighted signal power value is measured through the fiber channel at 1300 and 1550 nm wavelength window. Signal/noise power variations are demonstrated with time and spectral wavelength through PIN photo receiver at 1550 and 1300 nm wavelength window. The electronic signal power value is numerically measured through PIN photo receiver through 1300 and 1550 nm wavelength window. Through various optical wavelength windows of both 1300 and 1550 nm, the electronic signal power quality spectrum is numerically measured through PIN photo receiver.
期刊介绍:
This is the journal for all scientists working in optical communications. Journal of Optical Communications was the first international publication covering all fields of optical communications with guided waves. It is the aim of the journal to serve all scientists engaged in optical communications as a comprehensive journal tailored to their needs and as a forum for their publications. The journal focuses on the main fields in optical communications
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