Michael Music scite author profile

A nonlinear scattering transform is studied for the two-dimensional Schrödinger equation at zero energy with a radial potential. First explicit examples are presented, both theoretically and computationally, of potentials with nontrivial singularities in the scattering transform. The singularities arise from non-uniqueness of the complex geometric optics solutions that define the scattering transform. The values of the complex spectral parameter at which the singularities appear are called exceptional points. The singularity formation is closely related to the fact that potentials of conductivity type are "critical" in the sense of Murata.

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The nonlinear Fourier transform for two-dimensional subcritical potentials

Music¹

2014

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The inverse scattering method for the Novikov-Veselov equation is studied for a larger class of Schrödinger potentials than could be handled previously. Previous work concerns so-called conductivity type potentials, which have a bounded positive solution at zero energy and are a nowhere dense set of potentials. We relax this assumption to include logarithmically growing positive solutions at zero energy. These potentials are stable under perturbations. Assuming only that the potential is subcritical and has two weak derivatives in a weighted Sobolev space, we prove that the associated scattering transform can be inverted, and the original potential is recovered from the scattering data.

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The Novikov-Veselov Equation:Theory and Computation

Croke¹,

Mueller²,

Music³

et al. 2015

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Abstract. We review recent progress in theory and computation for the Novikov-Veselov (NV) equation with potentials decaying at infinity, focusing mainly on the zero-energy case. The inverse scattering method for the zeroenergy NV equation is presented in the context of Manakov triples, treating initial data of conductivity type rigorously. Special closed-form solutions are presented, including multisolitons, ring solitons, and breathers. The computational inverse scattering method is used to study zero-energy exceptional points and the relationship between supercritical, critical, and subcritical potentials.

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The nonlinear Fourier transform for two-dimensional subcritical potentials

Music¹

2013

Preprint

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Global Solutions for the zero-energy Novikov–Veselov equation by inverse scattering

Music

Perry

2018

Nonlinearity

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Using the inverse scattering method, we construct global solutions to the Novikov-Veselov equation for real-valued decaying initial data q 0 with the property that the associated Schrödinger operator −∂ x ∂ x + q 0 is nonnegative. Such initial data are either critical (an arbitrarily small perturbation of the potential makes the operator nonpositive) or subcritical (sufficiently small perturbations of the potential preserve non-negativity of the operator). Previously, Lassas, Mueller, Siltanen and Stahel proved global existence for critical potentials, also called potentials of conductivity type. We extend their results to include the much larger class of subcritical potentials. We show that the subcritical potentials form an open set and that the critical potentials form the nowhere dense boundary of this open set. Our analysis draws on previous work of the first author and on ideas of Grinevich and Manakov.

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Michael Music

Exceptional circles of radial potentials

The nonlinear Fourier transform for two-dimensional subcritical potentials

The Novikov-Veselov Equation:Theory and Computation

The nonlinear Fourier transform for two-dimensional subcritical potentials

Global Solutions for the zero-energy Novikov–Veselov equation by inverse scattering

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