Singularities in the Weak Turbulence Regime for the Quintic Schrödinger Equation

Anne Sophie de Suzzoni

doi:10.4171/dm/x35

Singularities in the Weak Turbulence Regime for the Quintic Schrödinger Equation

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Abstract

In this paper, we discuss the problem of derivation of kinetic equations from the theory of weak turbulence for the quintic Schrödinger equation. We study the quintic Schrödinger equation on LT, with (Formula Presented) and with a non-linearity of size (Formula Presented). We consider the correlations f (T) of the Fourier coefficients of the solution at times t = T ε⁻² when ε → 0 and L → ∞. Our results can be summed up in the following way: there exists a regime for ε and L such that for T dyadic, f (T) has the form expected from the Physics literature for kinetic regimes, but such that f has an infinite number of discontinuity points. This discontinuity appears in the context of finite-box effects.

Original language	English
Pages (from-to)	2491-2561
Number of pages	71
Journal	Documenta Mathematica
Volume	27
DOIs	https://doi.org/10.4171/dm/x35
Publication status	Published - 1 Jan 2022

Keywords

Discrete weak turbulence
Schrödinger equations
Wick renormalisation

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title = "Singularities in the Weak Turbulence Regime for the Quintic Schr{\"o}dinger Equation",

abstract = "In this paper, we discuss the problem of derivation of kinetic equations from the theory of weak turbulence for the quintic Schr{\"o}dinger equation. We study the quintic Schr{\"o}dinger equation on LT, with (Formula Presented) and with a non-linearity of size (Formula Presented). We consider the correlations f (T) of the Fourier coefficients of the solution at times t = T ε−2 when ε → 0 and L → ∞. Our results can be summed up in the following way: there exists a regime for ε and L such that for T dyadic, f (T) has the form expected from the Physics literature for kinetic regimes, but such that f has an infinite number of discontinuity points. This discontinuity appears in the context of finite-box effects.",

keywords = "Discrete weak turbulence, Schr{\"o}dinger equations, Wick renormalisation",

author = "\{de Suzzoni\}, \{Anne Sophie\}",

year = "2022",

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day = "1",

doi = "10.4171/dm/x35",

language = "English",

volume = "27",

pages = "2491--2561",

journal = "Documenta Mathematica",

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T1 - Singularities in the Weak Turbulence Regime for the Quintic Schrödinger Equation

AU - de Suzzoni, Anne Sophie

PY - 2022/1/1

Y1 - 2022/1/1

N2 - In this paper, we discuss the problem of derivation of kinetic equations from the theory of weak turbulence for the quintic Schrödinger equation. We study the quintic Schrödinger equation on LT, with (Formula Presented) and with a non-linearity of size (Formula Presented). We consider the correlations f (T) of the Fourier coefficients of the solution at times t = T ε−2 when ε → 0 and L → ∞. Our results can be summed up in the following way: there exists a regime for ε and L such that for T dyadic, f (T) has the form expected from the Physics literature for kinetic regimes, but such that f has an infinite number of discontinuity points. This discontinuity appears in the context of finite-box effects.

AB - In this paper, we discuss the problem of derivation of kinetic equations from the theory of weak turbulence for the quintic Schrödinger equation. We study the quintic Schrödinger equation on LT, with (Formula Presented) and with a non-linearity of size (Formula Presented). We consider the correlations f (T) of the Fourier coefficients of the solution at times t = T ε−2 when ε → 0 and L → ∞. Our results can be summed up in the following way: there exists a regime for ε and L such that for T dyadic, f (T) has the form expected from the Physics literature for kinetic regimes, but such that f has an infinite number of discontinuity points. This discontinuity appears in the context of finite-box effects.

KW - Discrete weak turbulence

KW - Schrödinger equations

KW - Wick renormalisation

U2 - 10.4171/dm/x35

DO - 10.4171/dm/x35

M3 - Article

AN - SCOPUS:85164772272

SN - 1431-0635

VL - 27

SP - 2491

EP - 2561

JO - Documenta Mathematica

JF - Documenta Mathematica

ER -

Singularities in the Weak Turbulence Regime for the Quintic Schrödinger Equation

Abstract

Keywords

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