Optical wave solutions of the higher-order nonlinear Schrodinger equation with the non-Kerr nonlinear term via modified Khater method

This research paper studies the optical soliton wave solutions of the model of sub-10-fspulse propagation by the implementation of the modified Khater method. This model describes the dynamics of light pulses that represent a higher-order nonlinear Schrodinger equation with the non-Kerr nonlinear term. The validity of this model depends on one primary hypothesis, which is the carrier wavelength of the soliton is much shorter than the spatial width. This means that the amplitude of the soliton frequency must be less than the carrier frequency. The shorter femtosecond pulses (< 100 fs) are desired to increase the bit rate of pulse propagation. The losing of distribution in such shortwavelength pulses through waveguides is a negligible loss. Our solitary analytical wave solutions are approved with the waveguide made of highly nonlinear optical materials.