Bifurcation analysis and phase portraits for chiral solitons with bohm potential in quantum hall effect
Lu Tang, Yakup Yildirim, Ahmed H. Arnous, Ahmed Shaker Mahmood, Ibrahim Zeghaiton Chaloob, Anjan Biswas

TL;DR
This paper studies chiral solitons in quantum systems using bifurcation analysis and phase portraits to understand their stability and behavior.
Contribution
The study introduces a new analysis of chiral solitons with Bohm potential using bifurcation theory and phase portraits.
Findings
Bifurcation analysis reveals stability transitions and structural changes in soliton solutions.
Exact optical soliton solutions show the Bohm potential's influence on soliton formation.
Results offer insights into nonlinear wave propagation in quantum fluids and optical systems.
Abstract
This paper presents a comprehensive bifurcation analysis and phase portrait investigation of chiral solitons governed by the chiral nonlinear Schrödinger equation with Bohm potential in the Quantum Hall Effect framework. The equation accounts for chirality, quantum corrections, and nonlinear interactions, making it a valuable model for soliton behavior in quantum fluids. We analyze the system’s dynamical properties, equilibrium points, and solution regimes using bifurcation theory, revealing stability transitions and structural changes in soliton solutions. Phase plane techniques visualize qualitative behaviors under varying parameters. Additionally, we derive exact optical soliton solutions, demonstrating the Bohm potential’s influence on soliton formation and evolution. These findings offer insights into nonlinear wave propagation in chiral quantum systems and have potential…
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Taxonomy
TopicsNonlinear Photonic Systems · Advanced Fiber Laser Technologies · Quantum optics and atomic interactions
