Asymptotic behavior of incompressible Schrödinger flow for small data in three dimensions

Jiaxi Huang; Lifeng Zhao

doi:10.1016/j.jde.2024.01.002

Asymptotic behavior of incompressible Schrödinger flow for small data in three dimensions

Jiaxi Huang, Lifeng Zhao^*

^*Corresponding author for this work

School of Mathematics and Statistics

University of Science and Technology of China

Research output: Contribution to journal › Article › peer-review

Abstract

The incompressible Schrödinger flow is a Madelung's hydrodynamical form of quantum mechanics, which can simulate classical fluids with particular advantage in its simplicity and its ability of capturing thin vortex dynamics. This model enables robust simulation of intricate phenomena such as vortical wakes and interacting vortex filaments. In this article, we prove the global regularity and asymptotic behaviors for incompressible Schrödinger flow with small and localized data in three dimensions. We choose a suitable gauge to rewrite the system, and then use Fourier analysis and vector field method to prove global existence and asymptotic behavior.

Original language	English
Pages (from-to)	519-556
Number of pages	38
Journal	Journal of Differential Equations
Volume	386
DOIs	https://doi.org/10.1016/j.jde.2024.01.002
Publication status	Published - 25 Mar 2024

Keywords

Asymptotic behaviors
Global regularity
Schrödinger equation
Small data

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10.1016/j.jde.2024.01.002

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abstract = "The incompressible Schr{\"o}dinger flow is a Madelung's hydrodynamical form of quantum mechanics, which can simulate classical fluids with particular advantage in its simplicity and its ability of capturing thin vortex dynamics. This model enables robust simulation of intricate phenomena such as vortical wakes and interacting vortex filaments. In this article, we prove the global regularity and asymptotic behaviors for incompressible Schr{\"o}dinger flow with small and localized data in three dimensions. We choose a suitable gauge to rewrite the system, and then use Fourier analysis and vector field method to prove global existence and asymptotic behavior.",

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AU - Huang, Jiaxi

AU - Zhao, Lifeng

PY - 2024/3/25

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N2 - The incompressible Schrödinger flow is a Madelung's hydrodynamical form of quantum mechanics, which can simulate classical fluids with particular advantage in its simplicity and its ability of capturing thin vortex dynamics. This model enables robust simulation of intricate phenomena such as vortical wakes and interacting vortex filaments. In this article, we prove the global regularity and asymptotic behaviors for incompressible Schrödinger flow with small and localized data in three dimensions. We choose a suitable gauge to rewrite the system, and then use Fourier analysis and vector field method to prove global existence and asymptotic behavior.

AB - The incompressible Schrödinger flow is a Madelung's hydrodynamical form of quantum mechanics, which can simulate classical fluids with particular advantage in its simplicity and its ability of capturing thin vortex dynamics. This model enables robust simulation of intricate phenomena such as vortical wakes and interacting vortex filaments. In this article, we prove the global regularity and asymptotic behaviors for incompressible Schrödinger flow with small and localized data in three dimensions. We choose a suitable gauge to rewrite the system, and then use Fourier analysis and vector field method to prove global existence and asymptotic behavior.

KW - Asymptotic behaviors

KW - Global regularity

KW - Schrödinger equation

KW - Small data

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DO - 10.1016/j.jde.2024.01.002

M3 - Article

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SN - 0022-0396

VL - 386

SP - 519

EP - 556

JO - Journal of Differential Equations

JF - Journal of Differential Equations

ER -

Asymptotic behavior of incompressible Schrödinger flow for small data in three dimensions

Abstract

Keywords

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