Resonant decompositions and the I-method for the cubic nonlinear schrodinger equation on ℝ2

J. Colliander; M. Keel; G. Staffilani; H. Takaoka; T. Tao

Resonant decompositions and the I-method for the cubic nonlinear schrodinger equation on ℝ²

J. Colliander, M. Keel, G. Staffilani, H. Takaoka, T. Tao

Mathematics

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51 Scopus citations

Abstract

The initial value problem for the cubic defocusing nonlinear Schrödinger equation i∂_tu + Δu = \u\²u on the plane is shown to be globally well-posed for initial data in H ^s(ℝ²) provided s > 1/2. The same result holds true for the analogous focusing problem provided the mass of the initial data is smaller than the mass of the ground state. The proof relies upon an almost conserved quantity constructed using multilinear correction terms. The main new difficulty is to control the contribution of resonant interactions to these correction terms. The resonant interactions are significant due to the multidimensional setting of the problem and some orthogonality issues which arise.

Original language	English (US)
Pages (from-to)	665-686
Number of pages	22
Journal	Discrete and Continuous Dynamical Systems
Volume	21
Issue number	3
State	Published - Jul 1 2008

Keywords

Nonlinear Schrödinger equation
Resonant decomposition
Strichartz estimates
Well-posedness

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title = "Resonant decompositions and the I-method for the cubic nonlinear schrodinger equation on ℝ2",

abstract = "The initial value problem for the cubic defocusing nonlinear Schr{\"o}dinger equation i∂tu + Δu = \u\2u on the plane is shown to be globally well-posed for initial data in H s(ℝ2) provided s > 1/2. The same result holds true for the analogous focusing problem provided the mass of the initial data is smaller than the mass of the ground state. The proof relies upon an almost conserved quantity constructed using multilinear correction terms. The main new difficulty is to control the contribution of resonant interactions to these correction terms. The resonant interactions are significant due to the multidimensional setting of the problem and some orthogonality issues which arise.",

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T1 - Resonant decompositions and the I-method for the cubic nonlinear schrodinger equation on ℝ2

AU - Colliander, J.

AU - Keel, M.

AU - Staffilani, G.

AU - Takaoka, H.

AU - Tao, T.

PY - 2008/7/1

Y1 - 2008/7/1

N2 - The initial value problem for the cubic defocusing nonlinear Schrödinger equation i∂tu + Δu = \u\2u on the plane is shown to be globally well-posed for initial data in H s(ℝ2) provided s > 1/2. The same result holds true for the analogous focusing problem provided the mass of the initial data is smaller than the mass of the ground state. The proof relies upon an almost conserved quantity constructed using multilinear correction terms. The main new difficulty is to control the contribution of resonant interactions to these correction terms. The resonant interactions are significant due to the multidimensional setting of the problem and some orthogonality issues which arise.

AB - The initial value problem for the cubic defocusing nonlinear Schrödinger equation i∂tu + Δu = \u\2u on the plane is shown to be globally well-posed for initial data in H s(ℝ2) provided s > 1/2. The same result holds true for the analogous focusing problem provided the mass of the initial data is smaller than the mass of the ground state. The proof relies upon an almost conserved quantity constructed using multilinear correction terms. The main new difficulty is to control the contribution of resonant interactions to these correction terms. The resonant interactions are significant due to the multidimensional setting of the problem and some orthogonality issues which arise.

KW - Nonlinear Schrödinger equation

KW - Resonant decomposition

KW - Strichartz estimates

KW - Well-posedness

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Resonant decompositions and the I-method for the cubic nonlinear schrodinger equation on ℝ²

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