International Journal of Scientific Engineering and Technology

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Analysis of Four-Wave-Mixing Effects in Up Stream Transmission Using SOA as Transmitter


Affiliations
1 Department of Electronics and Communication, LNCTS, Bhopal M.P., India
 

We demonstrate four-wave-mixing (FWM) based wavelength modulation at 1.55 μm using SOA. For a pump peak power of -10 dBm, a numerical simulation is used to predict the performance of each ONU Transmitter for different experimental conditions and to address the potential of each SOA in wavelength modulation effects analysing four-wave-mixing. It is shown that wavelength conversion, covering the entire C-band, can be achieved with different performance for SMF-28 optical fiber at reasonable optical pump power and for different fiber lengths.

Keywords

Four-Wave-Mixing (FWM), Optical Fiber Communication, Nonlinear Optics, Wavelengthconversion..
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  • Analysis of Four-Wave-Mixing Effects in Up Stream Transmission Using SOA as Transmitter

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Authors

Vikram Singh Yadav
Department of Electronics and Communication, LNCTS, Bhopal M.P., India
Praveen Kumar Vatsal
Department of Electronics and Communication, LNCTS, Bhopal M.P., India
Ritesh Kumar
Department of Electronics and Communication, LNCTS, Bhopal M.P., India

Abstract


We demonstrate four-wave-mixing (FWM) based wavelength modulation at 1.55 μm using SOA. For a pump peak power of -10 dBm, a numerical simulation is used to predict the performance of each ONU Transmitter for different experimental conditions and to address the potential of each SOA in wavelength modulation effects analysing four-wave-mixing. It is shown that wavelength conversion, covering the entire C-band, can be achieved with different performance for SMF-28 optical fiber at reasonable optical pump power and for different fiber lengths.

Keywords


Four-Wave-Mixing (FWM), Optical Fiber Communication, Nonlinear Optics, Wavelengthconversion..