Nonlinear Phase Shift due to Stimulated Brillouin Scattering in Strong Saturation Regime for Different Types of Fibers
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H. A. Al-Asadi
Abstract
We have developed a theoretical model that analytically predicts the nonlinear phase shift, which is due to Stimulated Brillouin Scattering (SBS) in two different types of optical fibers, a Standard Single-mode fiber (SMF) and a conventional Dispersion Compensating (DCF) fibre. Theoretical analysis based on the SBS effect yields a good description of the nonlinear phase shift of the output pump and Stokes wave characteristics in a strong saturation regime. A comparison of the two optical fibers is presented. With input pump power of 16 dBm, optical fiber length 11 km at the power ratio of 0.05, the predicted nonlinear phase shift of the output pump power and the Stokes power of SMF and DCF are about 79.58° and 97.92°, respectively. The nonlinear phase shift of the output pump power and of the Stokes power is higher when 11 km (6.7 km) DCF fiber length is used, as compared to the SMF of the same length. The nonlinear phase shift to the output pump power (the Stokes power) of DCF was less (more) than 8% (5%) for SMF at maximum input pump power.
©2015 by De Gruyter
Artikel in diesem Heft
- Frontmatter
- Effect of Raman Amplifier and Cyclic Prefix on O-OFDM System Using Phase Modulation
- All-Optical Switching in Ultrashort Photonic Crystal Couplers Modified Y-branch Structure
- Nonlinear Phase Shift due to Stimulated Brillouin Scattering in Strong Saturation Regime for Different Types of Fibers
- A Novel Weighted Energy Efficient Routing and Spectrum Assignment Algorithm in Flexible Optical Networks
- Reception of Polarization-Multiplexed QPSK Using Different Receivers with and without Differential Decoding
- RSOA-Based Full-Duplex WDM-PON for 20 Gbps Transmission in Two Channels Over a Long-Haul SMF Using External Modulation Scheme
- Physical Layer Impairment Model for CO-OFDM System Considering Amplified Spontaneous Emission and Four-wave Mixing
- Suppress the FWM by Increasing Channel Spacing and Chromatic Dispersion of Fiber in WDM System
- Performance Analysis of Advanced Modulation Formats at 40 Gbit/s for Single Channel and Multichannel
- Effect of Gain and Noise Figure on DPSK Modulated Long-haul Optical Communication System
- Effect of Optical Amplifiers on the Performance of SCM Radio over Fiber Systems
- New Generation of Optical NoC System with Wireless CDMA Architecture
- Intra-channel Cross-Phase Modulation Effect in Dispersion Compensated Single Channel Lightwave System with Negative Residual Dispersion
- Effect of Different Scattaring Technique on Higher Order Soliton
Artikel in diesem Heft
- Frontmatter
- Effect of Raman Amplifier and Cyclic Prefix on O-OFDM System Using Phase Modulation
- All-Optical Switching in Ultrashort Photonic Crystal Couplers Modified Y-branch Structure
- Nonlinear Phase Shift due to Stimulated Brillouin Scattering in Strong Saturation Regime for Different Types of Fibers
- A Novel Weighted Energy Efficient Routing and Spectrum Assignment Algorithm in Flexible Optical Networks
- Reception of Polarization-Multiplexed QPSK Using Different Receivers with and without Differential Decoding
- RSOA-Based Full-Duplex WDM-PON for 20 Gbps Transmission in Two Channels Over a Long-Haul SMF Using External Modulation Scheme
- Physical Layer Impairment Model for CO-OFDM System Considering Amplified Spontaneous Emission and Four-wave Mixing
- Suppress the FWM by Increasing Channel Spacing and Chromatic Dispersion of Fiber in WDM System
- Performance Analysis of Advanced Modulation Formats at 40 Gbit/s for Single Channel and Multichannel
- Effect of Gain and Noise Figure on DPSK Modulated Long-haul Optical Communication System
- Effect of Optical Amplifiers on the Performance of SCM Radio over Fiber Systems
- New Generation of Optical NoC System with Wireless CDMA Architecture
- Intra-channel Cross-Phase Modulation Effect in Dispersion Compensated Single Channel Lightwave System with Negative Residual Dispersion
- Effect of Different Scattaring Technique on Higher Order Soliton
