A refined global well-posedness result for schrödinger equations with derivative

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

doi:10.1137/S0036141001394541

A refined global well-posedness result for schrödinger equations with derivative

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

Mathematics

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Abstract

In this paper we prove that the one-dimensional Schrödinger equation with derivative in the nonlinear term is globally well-posed in H^s for s > 1/2 for data small in L². To understand the strength of this result one should recall that for s 1/2 the Cauchy problem is ill-posed, in the sense that uniform continuity with respect to the initial data fails. The result follows from the method of almost conserved energies, an evolution of the "I-method" used by the same authors to obtain global well-posedness for s > 2/3. The same argument can be used to prove that any quintic nonlinear defocusing Schrödinger equation on the line is globally well-posed for large data in H^s for s > 1/2.

Original language	English (US)
Pages (from-to)	64-86
Number of pages	23
Journal	SIAM Journal on Mathematical Analysis
Volume	34
Issue number	1
DOIs	https://doi.org/10.1137/S0036141001394541
State	Published - 2003

Keywords

Almost conserved energies
Global well-posedness
Schrödinger equation with derivative

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abstract = "In this paper we prove that the one-dimensional Schr{\"o}dinger equation with derivative in the nonlinear term is globally well-posed in Hs for s > 1/2 for data small in L2. To understand the strength of this result one should recall that for s 1/2 the Cauchy problem is ill-posed, in the sense that uniform continuity with respect to the initial data fails. The result follows from the method of almost conserved energies, an evolution of the {"}I-method{"} used by the same authors to obtain global well-posedness for s > 2/3. The same argument can be used to prove that any quintic nonlinear defocusing Schr{\"o}dinger equation on the line is globally well-posed for large data in Hs for s > 1/2.",

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AU - Colliander, J.

AU - Keel, M.

AU - Staffilani, G.

AU - Takaoka, H.

AU - Tao, T.

PY - 2003

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AB - In this paper we prove that the one-dimensional Schrödinger equation with derivative in the nonlinear term is globally well-posed in Hs for s > 1/2 for data small in L2. To understand the strength of this result one should recall that for s 1/2 the Cauchy problem is ill-posed, in the sense that uniform continuity with respect to the initial data fails. The result follows from the method of almost conserved energies, an evolution of the "I-method" used by the same authors to obtain global well-posedness for s > 2/3. The same argument can be used to prove that any quintic nonlinear defocusing Schrödinger equation on the line is globally well-posed for large data in Hs for s > 1/2.

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A refined global well-posedness result for schrödinger equations with derivative

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