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Auteur principal: Knezevitch, Alexis
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2502.17094
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author Knezevitch, Alexis
author_facet Knezevitch, Alexis
contents We consider the 1d quintic nonlinear Schrödinger equation (NLS) on the torus with initial data distributed according to the Gaussian measures with covariance operator $(1-Δ)^{-s}$, and denoted $μ_s$. For the full range $s>\frac{9}{10}$, we prove that these Gaussian measures are quasi-invariant along the flow of (NLS), meaning that the law of the solution at any time is absolutely continuous with respect to the initial Gaussian measure. Moreover, the condition $s>\frac{9}{10}$ corresponds to the threshold where the Sobolev space $H^{\frac{2}{5}+}(\mathbb{T})$ is of $μ_s$-full measure (it is of zero $μ_s$-measure otherwise). This is the lower regularity Sobolev space where we currently know that (NLS) is globally well-posed, thanks to a work by LI-WU-XU. The present work extends the known threshold $s>\frac{3}{2}$ for the quasi-invariance down to $s>\frac{9}{10}$, but we do not obtain here quantitative results on the Radon-Nikodym derivatives. Our approach is based on a work of Sun-Tzvetkov, combining a Poincaré-Dulac normal form reduction with energy estimates. However, our main tool to obtain these energy estimates differs: we use the Boué-Dupuis variational formula instead of Wiener Chaos.
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spellingShingle Qualitative quasi-invariance of low regularity Gaussian measures for the 1d quintic nonlinear Schrödinger equation
Knezevitch, Alexis
Analysis of PDEs
We consider the 1d quintic nonlinear Schrödinger equation (NLS) on the torus with initial data distributed according to the Gaussian measures with covariance operator $(1-Δ)^{-s}$, and denoted $μ_s$. For the full range $s>\frac{9}{10}$, we prove that these Gaussian measures are quasi-invariant along the flow of (NLS), meaning that the law of the solution at any time is absolutely continuous with respect to the initial Gaussian measure. Moreover, the condition $s>\frac{9}{10}$ corresponds to the threshold where the Sobolev space $H^{\frac{2}{5}+}(\mathbb{T})$ is of $μ_s$-full measure (it is of zero $μ_s$-measure otherwise). This is the lower regularity Sobolev space where we currently know that (NLS) is globally well-posed, thanks to a work by LI-WU-XU. The present work extends the known threshold $s>\frac{3}{2}$ for the quasi-invariance down to $s>\frac{9}{10}$, but we do not obtain here quantitative results on the Radon-Nikodym derivatives. Our approach is based on a work of Sun-Tzvetkov, combining a Poincaré-Dulac normal form reduction with energy estimates. However, our main tool to obtain these energy estimates differs: we use the Boué-Dupuis variational formula instead of Wiener Chaos.
title Qualitative quasi-invariance of low regularity Gaussian measures for the 1d quintic nonlinear Schrödinger equation
topic Analysis of PDEs
url https://arxiv.org/abs/2502.17094