On the quantization of $C^{\infty}(\mathbb R^d)$
Abstract: The Basic Universal Deformation Formula is proven and applied to show that Weyl algebras, which encode Heisenberg's uncertainty principle, are effective deformations of polynomial rings, and that uncertainty is necessary for stability. Deformation problems may have associated modular groups an algebraic example of which is given. Poisson structures on $C{\infty}(\mathbf Rd)$, shown by Kontsevich to be infinitesimal deformations integrable to full deformations, here are shown to be the skew forms of those infinitesimal deformations of $C{\infty}(\mathbf Rd)$ with vanishing primary obstructions. In dimension 3 any smooth multiple of such an infinitesimal again has vanishing primary obstruction. This exceptional property suggests that in our universe a large disturbance like the Big Bang can be confined to an arbitrarily small interval in time and almost completely confined to an arbitrarily small region in space.
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