On the Stability of Periodic Waves for the Cubic Derivative NLS and the Quintic NLS

We study the periodic cubic derivative nonlinear Schrödinger equation (DNLS) and the (focussing) quintic nonlinear Schrödinger equation (NLS). These are both L 2 critical dispersive models, which exhibit threshold-type behavior, when posed on the line R . We describe the (three-parameter) family of...

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Bibliographic Details
Published in:Journal of nonlinear science 2021-06, Vol.31 (3), Article 54
Main Authors: Hakkaev, Sevdzhan, Stanislavova, Milena, Stefanov, Atanas
Format: Article
Language:English
Subjects:
Analysis
Classical Mechanics
Economic Theory/Quantitative Economics/Mathematical Methods
Mathematical and Computational Engineering
Mathematical and Computational Physics
Mathematics
Mathematics and Statistics
Operators (mathematics)
Parameters
Periodic variations
Perturbation
Schrodinger equation
Spectra
Spectrum analysis
Stability analysis
Stability criteria
Theoretical
Traveling waves
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Summary:We study the periodic cubic derivative nonlinear Schrödinger equation (DNLS) and the (focussing) quintic nonlinear Schrödinger equation (NLS). These are both L 2 critical dispersive models, which exhibit threshold-type behavior, when posed on the line R . We describe the (three-parameter) family of non-vanishing bell-shaped solutions for the periodic problem, in closed form. The main objective of the paper is to study their stability with respect to co-periodic perturbations. We analyze these waves for stability in the framework of the cubic DNLS. We provide criteria for stability, depending on the sign of a scalar quantity. The proof relies on an instability index count, which in turn critically depends on a detailed spectral analysis of a self-adjoint matrix Hill operator. We exhibit a region in parameter space, which produces spectrally stable waves. We also provide an explicit description of the stability of all bell-shaped traveling waves for the quintic NLS, which turns out to be a two-parameter subfamily of the one exhibited for DNLS. We give a complete description of their stability—as it turns out some are spectrally stable, while other are spectrally unstable, with respect to co-periodic perturbations.
ISSN:0938-8974
1432-1467
DOI:10.1007/s00332-021-09712-6