Optimum Apodization Profile for Chirped Fiber Bragg Gratings based Chromatic Dispersion Compensator

In this paper, we optimize the apodization profile to improve the dispersion compensation performance of the chirped fiber Bragg gratings (CFBGs). Tanh, Exponential, and Hamming apodization profiles were evaluated at 2000 nm wavelength. Our aim is to obtain the minimum average group delay ripple (GDR) and maximum FWHM bandwidth. The result shows that the best FWHM bandwidth is obtained by using Tanh profile that is approximately 96.27%. No significant difference can be observed in the GDR

Impact of Intracavity Power Variations toward Ultrashort Pulse Generation

This study demonstrates a passive mode-locked erbium-doped fiber laser with a graphene nanoplatelet-saturable absorber (GNP-SA) that generates ultrashort pulses within femtosecond pulse duration. The GNP-SA is fabricated via a direct transfer approach by mechanically exfoliated graphene on a fiber ferrule. Its characteristics include 0.8% modulation depth, 8.7 MW/cm2 saturation fluence, and 36.8% absorbance. The quality of ultrashort pulses is studied with a variation of intracavity circulating powers that is controlled through an optical coupler. By changing the light intensity in the cavity, the optical amplification property in the erbium-doped fiber is also impacted. The increment of the output coupling ratio increases the population inversion in the active gain medium, which leads to the change of lasing wavelength from 1558 to 1532 nm. Using a 50% output coupling ratio, the fiber laser generates 960 fs pulse duration, 11.08 MHz repetition rate, and 6.05 mW output power. This study contributes to the understanding of oscillating light behavior while changing its intracavity power that affects the optical amplification properties