The paper explains the notion of projectively equivariant quantization. It gives a sketch of Martin Bordemann's proof of the existence of projectively equivariant quantization on arbitrary manifolds.
On étudie la structure naturelle d’algèbre de Lie de l’espace des sections de classe d’un fibré localement trivial dont la fibre-type est une algèbre de Lie ; on décrit, en particulier, ses dérivations et ses automorphismes. On détermine les algèbres de Lie pour lesquelles cette structure caractérise la structure différentiable de la base du fibré.
We prove the existence and the uniqueness of a conformally equivariant symbol calculus and quantization on any conformally flat pseudo-riemannian manifold . In other words, we establish a canonical isomorphism between the spaces of polynomials on and of differential operators on tensor densities over , both viewed as modules over the Lie algebra where . This quantization exists for generic values of the weights of the tensor densities and we compute the critical values of the weights yielding...
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