New approach for propagated light with optical solitons by optical fiber in pseudohyperbolic space H-0(2)
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Date
2023
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Publisher
Wiley
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Abstract
In this paper, a new evolution of polarized light ray by optical fiber in the pseudohyperbolic space H-0(2) is examined. Firstly, the characterization of the parallel transportation law associated with the geometric pseudohyperbolic phase of the light ray is given. Later, a principle nature of electric and magnetic field along with the light ray in the pseudohyperbolic space H-0(2) is defined by the geometric invariants. Finally, optical solutions of nonlinear pseudohyperbolic Schrodinger's equations governing the propagation of electromagnetic fields are successfully derived by using the traveling wave hypothesis approach.
Description
Inc, Mustafa/0000-0003-4996-8373; Korpinar, Talat/0000-0003-4000-0892; Korpinar, Zeliha/0000-0001-6658-131X; Demirkol, Ridvan Cem/0000-0002-3459-1676
Keywords
Geometric Pseudohyperbolic Phase, Optical Fiber, Transformation Equations, Traveling Wave Hypothesis
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Citation
İnç, Mustafa...et al. (2021). "New approach for propagated light with optical solitons by optical fiber in pseudohyperbolic space H-0(2)", Mathematical Methods in the Applied Sciences.
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Q1
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Q1
Source
Volume
46
Issue
7
Start Page
8263
End Page
8274