arXiv:2006.11861 Abstract | arXiv Analytics

arXiv:2006.11861 [math.AP]Abstract References Reviews Resources

Remarks on the non-uniqueness in law of the Navier-Stokes equations up to the J.-L. Lions' exponent

Published 2020-06-21Version 1

Lions (1959, Bull. Soc. Math. France, \textbf{87}, 245--273) introduced the Navier-Stokes equations with a viscous diffusion in the form of a fractional Laplacian; subsequently, he (1969, Dunod, Gauthiers-Villars, Paris) claimed the uniqueness of its solution when its exponent is not less than five quarters in case the spatial dimension is three. Following the work of Hofmanov$\acute{\mathrm{a}}$, Zhu and Zhu (2019, arXiv:1912.11841 [math.PR]), we prove the non-uniqueness in law for the three-dimensional stochastic Navier-Stokes equations with the viscous diffusion in the form of a fractional Laplacian with its exponent less than five quarters.

Categories: math.AP

Subjects: 35A02, 35Q30, 35R60

Keywords: non-uniqueness, three-dimensional stochastic navier-stokes equations, fractional laplacian, viscous diffusion, spatial dimension

Related articles: Most relevant | Search more

arXiv:1009.4042 [math.AP] (Published 2010-09-21, updated 2015-03-23)

Uniqueness and Nondegeneracy of Ground States for $(-Δ)^s Q + Q - Q^{α+1} = 0$ in $\mathbb{R}$

Rupert L. Frank, Enno Lenzmann

arXiv:1511.07417 [math.AP] (Published 2015-11-23)

Variational inequalities for the fractional Laplacian

Roberta Musina, Alexander I. Nazarov, Konijeti Sreenadh

arXiv:1509.06697 [math.AP] (Published 2015-09-22)

On the Asymptotic Analysis of Problems Involving Fractional Laplacian in Cylindrical Domains Tending to Infinity