Control of high power pulse extracted from the maximally compressed pulse in a nonlinear optical fiber

TL;DR

This paper demonstrates how to control high power pulses in nonlinear optical fibers by adjusting initial excitation parameters, affecting their power, location, and splitting behavior.

Contribution

It introduces a method to manipulate the properties of high power pulses in nonlinear fibers through initial Gaussian perturbation adjustments.

Findings

Power, location, and splitting of pulses can be controlled.

Transmission features are adjustable via initial parameters.

Numerical simulations confirm the control strategy.

Abstract

We address the possibility to control high power pulses extracted from the maximally compressed pulse in a nonlinear optical fiber by adjusting the initial excitation parameters. The numerical results show that the power, location and splitting order number of the maximally compressed pulse and the transmission features of high power pulses extracted from the maximally compressed pulse can be manipulated through adjusting the modulation amplitude, width, and phase of the initial Gaussian-type perturbation pulse on a continuous wave background.