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SOUMENDU JANA1,* , SHIVANI2, GURKIRPAL SINGH PARMAR1, BALDEEP KAUR1, QIN ZHOU3, ANJAN BISWAS4,5, MILIVOJ BELIC6
This paper presents evolution of super-Gaussian optical pulses to bell-shaped dissipative solitons in a lossy, cubic-quintic nonlinear (parabolic law) fiber in presence of bandwidth limited amplification. Lagrangian and Rayleigh dissipative function based variational principle leads to a set of evolution equations of individual pulse parameters that determine the condition of stable dissipative soliton pulse propagation. After some initial fluctuations, a flat-top pulse transforms its profile to a bell-shaped one and start propagating in a stable manner. In support of this analytical result, numerical investigations are performed using split-step Fourier method. In this case too, super-Gaussian pulses undergo an initial transition stage before achieving stable bell-shaped solitonic state. Dissipative solitons, thus generated, are found to be robust. This work provides the theoretical backup to experimental procedures of obtaining fundamental soliton from arbitrary pulse using a nonlinear optical fiber..
Dissipative soliton, Super-Gaussian, Bell-shaped soliton, Cubic-quintic nonlinearity, Frequency-selective feedback.
SOUMENDU JANA, SHIVANI, GURKIRPAL SINGH PARMAR, BALDEEP KAUR, QIN ZHOU, ANJAN BISWAS, MILIVOJ BELIC, Evolution of bell-shaped dissipative optical solitons from super-gaussian pulse in parabolic law medium with bandwidth limited amplification, Optoelectronics and Advanced Materials - Rapid Communications, 10, 3-4, March-April 2016, pp.143-150 (2016).
Submitted at: Feb. 14, 2016
Accepted at: April 5, 2016
Optoelectronics and Advanced Materials - Rapid Communications
(2022): 0.5 - 2022 Journal Citation Reports (Clarivate Analytics, 2023)
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