scholarly journals Turing Universality of the Incompressible Euler Equations and a Conjecture of Moore

2021 ◽  
Author(s):  
Robert Cardona ◽  
Eva Miranda ◽  
Daniel Peralta-Salas
Keyword(s):  
Euler Equations ◽  
Vector Fields ◽  
Blow Up ◽  
Stokes Equations ◽  
Navier Stokes ◽  
Navier Stokes Equations ◽  
Open Set ◽  
Divergence Free Vector ◽  
Divergence Free ◽  
Turing Complete

Abstract In this article, we construct a compact Riemannian manifold of high dimension on which the time-dependent Euler equations are Turing complete. More precisely, the halting of any Turing machine with a given input is equivalent to a certain global solution of the Euler equations entering a certain open set in the space of divergence-free vector fields. In particular, this implies the undecidability of whether a solution to the Euler equations with an initial datum will reach a certain open set or not in the space of divergence-free fields. This result goes one step further in Tao’s programme to study the blow-up problem for the Euler and Navier–Stokes equations using fluid computers. As a remarkable spin-off, our method of proof allows us to give a counterexample to a conjecture of Moore dating back to 1998 on the non-existence of analytic maps on compact manifolds that are Turing complete.

The Uniqueness of Weak Solutions of the Globally Modified Navier-Stokes Equations

2009 ◽  
Vol 9 (2) ◽  
Author(s):  
Marco Romito
Keyword(s):  
Weak Solutions ◽  
Vector Fields ◽  
Stokes Equations ◽  
Initial Conditions ◽  
Navier Stokes ◽  
Navier Stokes Equations ◽  
Divergence Free Vector ◽  
Divergence Free

AbstractWe prove uniqueness for the globally modified Navier-Stokes equations recently introduced by Caraballo, Real & Kloeden in [1] for initial conditions in the space H of square-summable divergence-free vector fields.

AN AUGMENTED PROJECTION METHOD FOR THE INCOMPRESSIBLE NAVIER-STOKES EQUATIONS IN ARBITRARY DOMAINS

2005 ◽  
Vol 02 (02) ◽  
pp. 201-212 ◽  
Author(s):  
JUNSEOK KIM
Keyword(s):  
Velocity Field ◽  
Projection Method ◽  
Vector Fields ◽  
Stokes Equations ◽  
Grid Method ◽  
Cartesian Grid ◽  
Moving Boundaries ◽  
Navier Stokes ◽  
Navier Stokes Equations ◽  
Divergence Free Vector

A Cartesian grid method for computing flows with complex immersed, stationary and moving boundaries is presented in this paper. We introduce an augmented projection method for the numerical solution of the incompressible Navier-Stokes equations in arbitrary domains. In a projection method an intermediate velocity field is calculated from the momentum equations, which is then projected onto the space of divergence-free vector fields. In the proposed augmented projection method, we add one more step, which effectively eliminates spurious velocity field caused by complex immersed moving boundaries. The methodology is validated by comparing it with analytic, previous numerical and experimental results.

Some Elements of Functional Analysis

2006 ◽  
Author(s):  
Jean-Yves Chemin ◽  
Benoit Desjardins ◽  
Isabelle Gallagher ◽  
Emmanuel Grenier
Keyword(s):  
Functional Analysis ◽  
Weak Solutions ◽  
Vector Fields ◽  
Stokes Equations ◽  
Stokes Operator ◽  
Navier Stokes ◽  
Navier Stokes Equations ◽  
Dual Spaces ◽  
Type Spaces ◽  
Definition Of

Before introducing the concept of Leray’s weak solutions to the incompressible Navier–Stokes equations, classical definitions of Sobolev spaces are required. In particular, when it comes to the analysis of the Stokes operator, suitable functional spaces of incompressible vector fields have to be defined. Several issues regarding the associated dual spaces, embedding properties, and the mathematical way of considering the pressure field are also discussed. Let us first recall the definition of some functional spaces that we shall use throughout this book. In the framework of weak solutions of the Navier– Stokes equations, incompressible vector fields with finite viscous dissipation and the no-slip property on the boundary are considered. Such H1-type spaces of incompressible vector fields, and the corresponding dual spaces, are important ingredients in the analysis of the Stokes operator.

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