Fedosov manifold - Misplaced Pages

In mathematics, a Fedosov manifold is a symplectic manifold with a compatible torsion-free connection, that is, a triple (M, ω, ∇), where (M, ω) is a symplectic manifold (that is, $\omega$ is a symplectic form, a non-degenerate closed exterior 2-form, on a $C^{\infty }$ -manifold M), and ∇ is a symplectic torsion-free connection on $M.$ (A connection ∇ is called compatible or symplectic if X ⋅ ω(Y,Z) = ω(∇_XY,Z) + ω(Y,∇_XZ) for all vector fields X,Y,Z ∈ Γ(TM). In other words, the symplectic form is parallel with respect to the connection, i.e., its covariant derivative vanishes.) Note that every symplectic manifold admits a symplectic torsion-free connection. Cover the manifold with Darboux charts and on each chart define a connection ∇ with Christoffel symbol $\Gamma _{jk}^{i}=0$ . Then choose a partition of unity (subordinate to the cover) and glue the local connections together to a global connection which still preserves the symplectic form. The famous result of Boris Vasilievich Fedosov gives a canonical deformation quantization of a Fedosov manifold.

Examples

For example, $\mathbb {R} ^{2n}$ with the standard symplectic form $dx_{i}\wedge dy_{i}$ has the symplectic connection given by the exterior derivative $d.$ Hence, $\left(\mathbb {R} ^{2n},\omega ,d\right)$ is a Fedosov manifold.

References

Gelfand, I.; Retakh, V.; Shubin, M. (1997). "Fedosov Manifolds". Preprint. arXiv:dg-ga/9707024. Bibcode:1997dg.ga.....7024G.
Fedosov, B. V. (1994). "A simple geometrical construction of deformation quantization". Journal of Differential Geometry. 40 (2): 213–238. doi:10.4310/jdg/1214455536. MR 1293654.

Esrafilian, Ebrahim; Hamid Reza Salimi Moghaddam (2013). "Symplectic Connections Induced by the Chern Connection". arXiv:1305.2852 .

Manifolds (Glossary)

Basic concepts

Main results (list)

Maps

Types of
manifolds

Tensors

Vectors	Distribution Lie bracket Pushforward Tangent space bundle Torsion Vector field Vector flow
Covectors	Closed/Exact Covariant derivative Cotangent space bundle De Rham cohomology Differential form Vector-valued Exterior derivative Interior product Pullback Ricci curvature flow Riemann curvature tensor Tensor field density Volume form Wedge product
Bundles	Adjoint Affine Associated Cotangent Dual Fiber (Co) Fibration Jet Lie algebra (Stable) Normal Principal Spinor Subbundle Tangent Tensor Vector
Connections	Affine Cartan Ehresmann Form Generalized Koszul Levi-Civita Principal Vector Parallel transport

Generalizations

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