Friday, June 29, 2012

1206.6644 (Michael Hinz et al.)

Local Dirichlet forms, Hodge theory, and the Navier-Stokes equations on
topologically one-dimensional fractals
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Michael Hinz, Alexander Teplyaev
We consider finite energy and $L^2$ differential forms associated with local regular Dirichlet forms on compact topologically one-dimensional spaces. We introduce notions of local exactness and local harmonicity and prove the Hodge decomposition, which in our context says that the orthogonal complement to the space of all exact 1-forms coincides with the closed span of all locally harmonic 1-forms. Then we introduce a related Hodge Laplacian and define a notion harmonicity for finite energy 1-forms. As as corollary, under a certain capacity-separation assumption, we prove that the space of harmonic 1-forms is nontrivial if and only if the classical \v{C}ech cohomology is nontrivial. In the examples of classical self-similar fractals these spaces typically are either trivial or infinitely dimensional. Finally, we study Navier-Stokes type models and prove that under our assumptions they have only steady state divergence-free solutions. In particular, we solve the existence and uniqueness problem for the Navier-Stokes and Euler equations for a large class of fractals that are topologically one-dimensional but can have arbitrary Hausdorff and spectral dimensions.
View original: http://arxiv.org/abs/1206.6644

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