Intermittency for the stochastic heat equation with Lévy noise

Carsten Chong; Péter Kevei

doi:10.1214/18-AOP1297

Intermittency for the stochastic heat equation with Lévy noise

Carsten Chong, Péter Kevei

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

14 Citations (Scopus)

Abstract

We investigate the moment asymptotics of the solution to the stochastic heat equation driven by a (d + 1)-dimensional Lévy space-time white noise. Unlike the case of Gaussian noise, the solution typically has no finite moments of order 1 + 2/d or higher. Intermittency of order p, that is, the exponential growth of the pth moment as time tends to infinity, is established in dimension d = 1 for all values p ∈ (1, 3), and in higher dimensions for some p ∈ (1, 1 + 2/d). The proof relies on a new moment lower bound for stochastic integrals against compensated Poisson measures. The behavior of the intermittency exponents when p→1 + 2/d further indicates that intermittency in the presence of jumps is much stronger than in equations with Gaussian noise. The effect of other parameters like the diffusion constant or the noise intensity on intermittency will also be analyzed in detail.

Original language	English
Pages (from-to)	1911-1948
Number of pages	38
Journal	Annals of Probability
Volume	47
Issue number	4
DOIs	https://doi.org/10.1214/18-AOP1297
Publication status	Published - 2019
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2019, Institute of Mathematical Statistics.

Keywords

Comparison principle
Intermittency
Intermittency fronts
Lévy noise
Moment Lyapunov exponents
Stochastic PDE
Stochastic heat equation

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10.1214/18-AOP1297

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title = "Intermittency for the stochastic heat equation with L{\'e}vy noise",

abstract = "We investigate the moment asymptotics of the solution to the stochastic heat equation driven by a (d + 1)-dimensional L{\'e}vy space-time white noise. Unlike the case of Gaussian noise, the solution typically has no finite moments of order 1 + 2/d or higher. Intermittency of order p, that is, the exponential growth of the pth moment as time tends to infinity, is established in dimension d = 1 for all values p ∈ (1, 3), and in higher dimensions for some p ∈ (1, 1 + 2/d). The proof relies on a new moment lower bound for stochastic integrals against compensated Poisson measures. The behavior of the intermittency exponents when p→1 + 2/d further indicates that intermittency in the presence of jumps is much stronger than in equations with Gaussian noise. The effect of other parameters like the diffusion constant or the noise intensity on intermittency will also be analyzed in detail.",

keywords = "Comparison principle, Intermittency, Intermittency fronts, L{\'e}vy noise, Moment Lyapunov exponents, Stochastic PDE, Stochastic heat equation",

author = "Carsten Chong and P{\'e}ter Kevei",

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year = "2019",

doi = "10.1214/18-AOP1297",

language = "English",

volume = "47",

pages = "1911--1948",

journal = "Annals of Probability",

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publisher = "Institute of Mathematical Statistics",

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T1 - Intermittency for the stochastic heat equation with Lévy noise

AU - Chong, Carsten

AU - Kevei, Péter

PY - 2019

Y1 - 2019

N2 - We investigate the moment asymptotics of the solution to the stochastic heat equation driven by a (d + 1)-dimensional Lévy space-time white noise. Unlike the case of Gaussian noise, the solution typically has no finite moments of order 1 + 2/d or higher. Intermittency of order p, that is, the exponential growth of the pth moment as time tends to infinity, is established in dimension d = 1 for all values p ∈ (1, 3), and in higher dimensions for some p ∈ (1, 1 + 2/d). The proof relies on a new moment lower bound for stochastic integrals against compensated Poisson measures. The behavior of the intermittency exponents when p→1 + 2/d further indicates that intermittency in the presence of jumps is much stronger than in equations with Gaussian noise. The effect of other parameters like the diffusion constant or the noise intensity on intermittency will also be analyzed in detail.

AB - We investigate the moment asymptotics of the solution to the stochastic heat equation driven by a (d + 1)-dimensional Lévy space-time white noise. Unlike the case of Gaussian noise, the solution typically has no finite moments of order 1 + 2/d or higher. Intermittency of order p, that is, the exponential growth of the pth moment as time tends to infinity, is established in dimension d = 1 for all values p ∈ (1, 3), and in higher dimensions for some p ∈ (1, 1 + 2/d). The proof relies on a new moment lower bound for stochastic integrals against compensated Poisson measures. The behavior of the intermittency exponents when p→1 + 2/d further indicates that intermittency in the presence of jumps is much stronger than in equations with Gaussian noise. The effect of other parameters like the diffusion constant or the noise intensity on intermittency will also be analyzed in detail.

KW - Comparison principle

KW - Intermittency

KW - Intermittency fronts

KW - Lévy noise

KW - Moment Lyapunov exponents

KW - Stochastic PDE

KW - Stochastic heat equation

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UR - https://openalex.org/W2739356625

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DO - 10.1214/18-AOP1297

M3 - Journal Article

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SP - 1911

EP - 1948

JO - Annals of Probability

JF - Annals of Probability

IS - 4

ER -

Intermittency for the stochastic heat equation with Lévy noise

Abstract

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Keywords

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