Delayed blow-up and enhanced diffusion by transport noise for systems of reaction–diffusion equations

Agresti, Antonio

doi:10.1007/s40072-023-00319-4

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Cited by 5 publications

References 62 publications

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Introduction

Goodair,

Crisan

2024

SpringerBriefs in Mathematics

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Introduction

Goodair,

Crisan

2024

SpringerBriefs in Mathematics

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Global existence and non-uniqueness of 3D Euler equations perturbed by transport noise

Hofmanová,

Lange,

Pappalettera

2023

Probab. Theory Relat. Fields

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We construct Hölder continuous, global-in-time probabilistically strong solutions to 3D Euler equations perturbed by Stratonovich transport noise. Kinetic energy of the solutions can be prescribed a priori up to a stopping time, that can be chosen arbitrarily large with high probability. We also prove that there exist infinitely many Hölder continuous initial conditions leading to non-uniqueness of solutions to the Cauchy problem associated with the system. Our construction relies on a flow transformation reducing the SPDE under investigation to a random PDE, and convex integration techniques introduced in the deterministic setting by De Lellis and Székelyhidi, here adapted to consider the stochastic case. In particular, our novel approach allows to construct probabilistically strong solutions on $$[0,\infty )$$ [ 0 , ∞ ) directly.

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Regularization by Noise of an Averaged Version of the Navier–Stokes Equations

Lange

2023

J Dyn Diff Equat

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In Tao 2016, the author constructs an averaged version of the deterministic three-dimensional Navier–Stokes equations (3D NSE) which experiences blow-up in finite time. In the last decades, various works have studied suitable perturbations of ill-behaved deterministic PDEs in order to prevent or delay such behavior. A promising example is given by a particular choice of stochastic transport noise closely studied in Flandoli et al. 2021. We analyze the model in Tao 2016 in view of these results and discuss the regularization skills of this noise in the context of the averaged 3D NSE.

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Delayed blow-up and enhanced diffusion by transport noise for systems of reaction–diffusion equations

Cited by 5 publications

References 62 publications

Introduction

Introduction

Global existence and non-uniqueness of 3D Euler equations perturbed by transport noise

Regularization by Noise of an Averaged Version of the Navier–Stokes Equations

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