New Thought on Matsumura–Nishida Theory in the Lp – Lq Maximal Regularity Framework

Yoshihiro Shibata*

*Corresponding author for this work

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1 Citation (Scopus)

Abstract

This paper is devoted to proving the global well-posedness of initial-boundary value problem for Navier–Stokes equations describing the motion of viscous, compressible, barotropic fluid flows in a three dimensional exterior domain with non-slip boundary conditions. This was first proved by an excellent paper due to Matsumura and Nishida (Commun Math Phys 89:445–464, 1983). In [10], they used energy method and their requirement was that space derivatives of the mass density up to third order and space derivatives of the velocity fields up to fourth order belong to L2 in space-time, detailed statement of Matsumura and Nishida theorem is given in Theorem 1 of Sect. 1 of context. This requirement is essentially used to estimate the L norm of necessary order of derivatives in order to enclose the iteration scheme with the help of Sobolev inequalities and also to treat the material derivatives of the mass density. On the other hand, this paper gives the global wellposedness of the same problem as in [10] in Lp (1 < p≤ 2) in time and L2∩ L6 in space maximal regularity class, which is an improvement of the Matsumura and Nishida theory in [10] from the point of view of the minimal requirement of the regularity of solutions. In fact, after changing the material derivatives to time derivatives by Lagrange transformation, enough estimates obtained by combination of the maximal Lp (1 < p≤ 2) in time and L2∩ L6 in space regularity and Lp–Lq decay estimate of the Stokes equations with non-slip conditions in the compressible viscous fluid flow case enable us to use the standard Banach’s fixed point argument. Moreover, one of the purposes of this paper is to present a framework to prove the Lp–Lq maximal regularity for parabolic-hyperbolic type equations with non-homogeneous boundary conditions and how to combine the maximal Lp–Lq regularity and Lp–Lq decay estimates of linearized equations to prove the global well-posedness of quasilinear problems in unbounded domains, which gives a new thought of proving the global well-posedness of initial-boundary value problems for systems of parabolic or parabolic-hyperbolic equations appearing in mathematical physics.

Original languageEnglish
Article number66
JournalJournal of Mathematical Fluid Mechanics
Volume24
Issue number3
DOIs
Publication statusPublished - 2022 Aug

Keywords

  • Compressible viscous barotropic fluid
  • Global well-posedness
  • Navier–Stokes equations
  • The maximal L space

ASJC Scopus subject areas

  • Mathematical Physics
  • Condensed Matter Physics
  • Computational Mathematics
  • Applied Mathematics

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