Carlo Morosi, Livio Pizzocchero
Published 2010-07-26, updated 2012-09-05Version 3
We consider the incompressible Euler or Navier-Stokes (NS) equations on a d-dimensional torus T^d; the quadratic term in these equations arises from the bilinear map sending two velocity fields v, w : T^d -> R^d into v . D w, and also involves the Leray projection L onto the space of divergence free vector fields. We derive upper and lower bounds for the constants in some inequalities related to the above quadratic term; these bounds hold, in particular, for the sharp constants K_{n d} = K_n in the basic inequality || L(v . D w)||_n <= K_n || v ||_n || w ||_{n+1}, where n in (d/2, + infinity) and v, w are in the Sobolev spaces H^n, H^{n+1} of zero mean, divergence free vector fields of orders n and n+1, respectively. As examples, the numerical values of our upper and lower bounds are reported for d=3 and some values of n. Some practical motivations are indicated for an accurate analysis of the constants K_n.
Comments: LaTeX, 36 pages. The numerical values of the upper bounds K^{+}_{5} and K^{+}_{10} for d=3 have been corrected. Some references have been updated. arXiv admin note: text overlap with arXiv:1009.2051 by the same authors, not concerning the main results
Journal: an abridged version published in Applied Mathematics Letters 26 (2013), 277-284
On the constants in a Kato inequality for the Euler and Navier-Stokes equations
Remarks on a quasi-linear model of the Navier-Stokes Equations
New results on the constants in some inequalities for the Navier-Stokes quadratic nonlinearity
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