Clifford module bundle
In differential geometry, a Clifford module bundle, a bundle of Clifford modules or just Clifford module is a vector bundle whose fibers are Clifford modules, the representations of Clifford algebras. The canonical example is a spinor bundle.[1][2] In fact, on a Spin manifold, every Clifford module is obtained by twisting the spinor bundle.[3] The notion "Clifford module bundle" should not be confused with a Clifford bundle, which is a bundle of Clifford algebras.
Spinor bundles
Given an oriented Riemannian manifold M one can ask whether it is possible to construct a bundle of irreducible Clifford modules over Cℓ(T*M). In fact, such a bundle can be constructed if and only if M is a spin manifold.
Let M be an n-dimensional spin manifold with spin structure FSpin(M) → FSO(M) on M. Given any CℓnR-module V one can construct the associated spinor bundle
- [math]\displaystyle{ S(M) = F_{\mathrm{Spin}}(M) \times_\sigma V\, }[/math]
where σ : Spin(n) → GL(V) is the representation of Spin(n) given by left multiplication on S. Such a spinor bundle is said to be real, complex, graded or ungraded according to whether on not V has the corresponding property. Sections of S(M) are called spinors on M.
Given a spinor bundle S(M) there is a natural bundle map
- [math]\displaystyle{ C\ell(T^*M) \otimes S(M) \to S(M) }[/math]
which is given by left multiplication on each fiber. The spinor bundle S(M) is therefore a bundle of Clifford modules over Cℓ(T*M).
See also
- Orthonormal frame bundle
- Spin representation
- Spin geometry
Notes
- ↑ Berline, Getzler & Vergne 2004, pp. 113—115
- ↑ Lawson & Michelsohn 1989, pp. 96-97
- ↑ Berline, Getzler & Vergne 2004, Proposition 3.35.
References
- Berline, Nicole; Getzler, Ezra; Vergne, Michèle (2004). Heat kernels and Dirac operators. Grundlehren Text Editions (Paperback ed.). Berlin, New York: Springer-Verlag. ISBN 3-540-20062-2.
- Lawson, H. Blaine; Michelsohn, Marie-Louise (1989). Spin Geometry. Princeton Mathematical Series. 38. Princeton University Press. ISBN 978-0-691-08542-5.
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