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Hypercomplex manifold

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In differential geometry, a hypercomplex manifold is a manifold with the tangent bundle equipped with an action by the algebra of quaternions in such a way that the quaternions define integrable almost complex structures.

If the almost complex structures are instead not assumed to be integrable, the manifold is called quaternionic, or almost hypercomplex.[1]

Examples

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Every hyperkähler manifold is also hypercomplex. The converse is not true. The Hopf surface

(with acting as a multiplication by a quaternion , ) is hypercomplex, but not Kähler, hence not hyperkähler either. To see that the Hopf surface is not Kähler, notice that it is diffeomorphic to a product hence its odd cohomology group is odd-dimensional. By Hodge decomposition, odd cohomology of a compact Kähler manifold are always even-dimensional. In fact Hidekiyo Wakakuwa proved [2] that on a compact hyperkähler manifold . Misha Verbitsky has shown that any compact hypercomplex manifold admitting a Kähler structure is also hyperkähler.[3]

In 1988, left-invariant hypercomplex structures on some compact Lie groups were constructed by the physicists Philippe Spindel, Alexander Sevrin, Walter Troost, and Antoine Van Proeyen. In 1992, Dominic Joyce rediscovered this construction, and gave a complete classification of left-invariant hypercomplex structures on compact Lie groups. Here is the complete list.

where denotes an -dimensional compact torus.

It is remarkable that any compact Lie group becomes hypercomplex after it is multiplied by a sufficiently big torus.

Basic properties

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Hypercomplex manifolds as such were studied by Charles Boyer in 1988. He also proved that in real dimension 4, the only compact hypercomplex manifolds are the complex torus , the Hopf surface and the K3 surface.

Much earlier (in 1955) Morio Obata studied affine connection associated with almost hypercomplex structures (under the former terminology of Charles Ehresmann[4] of almost quaternionic structures). His construction leads to what Edmond Bonan called the Obata connection[5][6] which is torsion free, if and only if, "two" of the almost complex structures are integrable and in this case the manifold is hypercomplex.

Twistor spaces

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There is a 2-dimensional sphere of quaternions satisfying . Each of these quaternions gives a complex structure on a hypercomplex manifold M. This defines an almost complex structure on the manifold , which is fibered over with fibers identified with . This complex structure is integrable, as follows from Obata's theorem (this was first explicitly proved by Dmitry Kaledin[7]). This complex manifold is called the twistor space of . If M is , then its twistor space is isomorphic to .

See also

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References

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  1. ^ Manev, Mancho; Sekigawa, Kouei (2005). "Some Four-Dimensional Almost Hypercomplex Pseudo-Hermitian Manifolds". In S. Dimiev and K. Sekigawa (ed.). Contemporary Aspects of Complex Analysis, Differential Geometry and Mathematical Physics. Vol. 2005. Hackensack, NJ: World Sci. Publ. pp. 174–186. arXiv:0804.2814. doi:10.1142/9789812701763_0016. ISBN 978-981-256-390-3.
  2. ^ Wakakuwa, Hidekiyo (1958), "On Riemannian manifolds with homogeneous holonomy group Sp(n)", Tôhoku Mathematical Journal, 10 (3): 274–303, doi:10.2748/tmj/1178244665.
  3. ^ Verbitsky, Misha (2005), "Hypercomplex structures on Kaehler manifolds", GAFA, 15 (6): 1275–1283, arXiv:math/0406390, doi:10.1007/s00039-005-0537-4
  4. ^ Ehresmann, Charles (1947), "Sur la théorie des espaces fibrés", Coll. Top. Alg., Paris.
  5. ^ Bonan, Edmond (1964), "Tenseur de structure d'une variété presque quaternionienne", C. R. Acad. Sci. Paris, 259: 45–48
  6. ^ Bonan, Edmond (1967), "Sur les G-structures de type quaternionien" (PDF), Cahiers de Topologie et Géométrie Différentielle Catégoriques, 9 (4): 389–463.
  7. ^ Kaledin, Dmitry (1996). "Integrability of the twistor space for a hypercomplex manifold". arXiv:alg-geom/9612016.








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