Impact of 2OD and 3OD on SRS- and XPM-induced crosstalk in SCM-WDM optical transmission link

Arya, Sandeep; Sharma, Ajay K.; Agarwala, R. A.

doi:10.1016/j.ijleo.2007.10.004

Cited by 14 publications

(2 citation statements)

References 18 publications

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“…So it is necessary to investigate the performance of optical transmission link at higher modulation frequencies including the higher-order dispersion coefficients. The work reported [8] considered the impact of 2OD and third-order dispersion (3OD) coefficients independently at different modulation frequencies. This paper extends the work by including various parameters (Dispersion, effective area, transmission length and modulation frequency) that play an important role in signal transmission in SCM-WDM passive optical network at different optical powers.…”

Section: Introductionmentioning

confidence: 99%

XPM-induced Crosstalk in SCM-WDM Passive Optical Networks

Kashyap¹,

Kumar²,

Kaushik³

2012

IJCA

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In this paper, the XPM-induced crosstalk has been evaluated with third order Dispersion in SCM-WDM optical communication system at different optical powers for various parameters (dispersion, transmission length, effective area and modulation frequency) that play an important role in signal transmission. Results show that as the dispersion, transmission length and modulation frequency parameters increase, crosstalk increases with increase in optical powers and effective areas increase, crosstalk decreases with increase in optical power. General TermsXPM-induced Crosstalk, Dispersion, SCM-WDM.

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Section: Introductionmentioning

confidence: 99%

XPM-induced Crosstalk in SCM-WDM Passive Optical Networks

Kashyap¹,

Kumar²,

Kaushik³

2012

IJCA

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“…Further, the inter-channel crosstalk due to SRS-and XPM-fiber nonlinearity is studied but under the impact of second-order dispersion (2OD) only. The investigations are further extended to examine the crosstalk due to SRSand XPM-fiber nonlinearity by considering the impact of 2OD and third-order dispersion (3OD) coefficients independently at different modulation frequencies [8]. With the trend of using higher modulation frequencies, it becomes essential to investigate the performance of an optical link at higher modulation frequencies under the influence of HOD coefficients.…”

Section: Introductionmentioning

confidence: 99%

Theoretical Investigation of XPM Induced Crosstalk under the Impact of Higher Order Dispersion (HOD) in SCM-WDM Transmission Link

Sharma¹,

Kaur²,

Singh³

2012

J. Opt. Commun.

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In this work, an effort has been attempted for the comprehensive theoretical analysis to evaluate the impact of higher order dispersion (HOD) coefficients on non-linear crosstalk in SCM-WDM communication systems. The results are obtained to compute the interchannel crosstalk due to XPM fiber nonlinearity under the individual influence of 2OD-, 3OD-, 4OD-and 5OD-coefficient at different modulation frequencies. The results are reported at varied values of optical span and input channel power, as these both parameters enhance the amount of crosstalk due to fiber nonlinearity in the SCM-WDM systems. This work is also carried out by taking into consideration of the different values of modulation index and walk-off parameter.

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Improved analysis for SRS- and XPM-induced crosstalk in SCM-WDM transmission link in the presence of HOD

Sharma

Arya

2009

Optik

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Impact of 2OD and 3OD on SRS- and XPM-induced crosstalk in SCM-WDM optical transmission link

Cited by 14 publications

References 18 publications

XPM-induced Crosstalk in SCM-WDM Passive Optical Networks

XPM-induced Crosstalk in SCM-WDM Passive Optical Networks

Theoretical Investigation of XPM Induced Crosstalk under the Impact of Higher Order Dispersion (HOD) in SCM-WDM Transmission Link

Improved analysis for SRS- and XPM-induced crosstalk in SCM-WDM transmission link in the presence of HOD

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