Quaternion-Kähler symmetric space

In differential geometry, a quaternion-Kähler symmetric space or Wolf space is a quaternion-Kähler manifold which, as a Riemannian manifold, is a Riemannian symmetric space. Any quaternion-Kähler symmetric space with positive Ricci curvature is compact and simply connected, and is a Riemannian product of quaternion-Kähler symmetric spaces associated to compact simple Lie groups. For any compact simple Lie group G, there is a unique G/H obtained as a quotient of G by a subgroup

H = K \cdot S p (1) .

Here, Sp(1) is the compact form of the SL(2)-triple associated with the highest root of G, and K its centralizer in G. These are classified as follows.

G	H	quaternionic dimension	geometric interpretation
$S U (p + 2)$	$S (U (p) \times U (2))$	p	Grassmannian of complex 2-dimensional subspaces of $ℂ^{p + 2}$
$S O (p + 4)$	$S O (p) \cdot S O (4)$	p	Grassmannian of oriented real 4-dimensional subspaces of $ℝ^{p + 4}$
$S p (p + 1)$	$S p (p) \cdot S p (1)$	p	Grassmannian of quaternionic 1-dimensional subspaces of $ℍ^{p + 1}$
$E_{6}$	$S U (6) \cdot S U (2)$	10	Space of symmetric subspaces of $(ℂ \otimes 𝕆) P^{2}$ isometric to $(ℂ \otimes ℍ) P^{2}$
$E_{7}$	$S p i n (12) \cdot S p (1)$	16	Rosenfeld projective plane $(ℍ \otimes 𝕆) P^{2}$ over $ℍ \otimes 𝕆$
$E_{8}$	$E_{7} \cdot S p (1)$	28	Space of symmetric subspaces of $(𝕆 \otimes 𝕆) P^{2}$ isomorphic to $(ℍ \otimes 𝕆) P^{2}$
$F_{4}$	$S p (3) \cdot S p (1)$	7	Space of the symmetric subspaces of ${𝕆 ℙ}^{2}$ which are isomorphic to ${ℍ ℙ}^{2}$
$G_{2}$	$S O (4)$	2	Space of the subalgebras of the octonion algebra $𝕆$ which are isomorphic to the quaternion algebra $ℍ$

The twistor spaces of quaternion-Kähler symmetric spaces are the homogeneous holomorphic contact manifolds, classified by Boothby: they are the adjoint varieties of the complex semisimple Lie groups. These spaces can be obtained by taking a projectivization of a minimal nilpotent orbit of the respective complex Lie group. The holomorphic contact structure is apparent, because the nilpotent orbits of semisimple Lie groups are equipped with the Kirillov-Kostant holomorphic symplectic form. This argument also explains how one can associate a unique Wolf space to each of the simple complex Lie groups.

References

Besse, Arthur L. (2008), Einstein Manifolds, Classics in Mathematics, Berlin: Springer-Verlag, ISBN 978-3-540-74120-6, MR 2371700. Reprint of the 1987 edition.
Salamon, Simon (1982), "Quaternionic Kähler manifolds", Inventiones Mathematicae, 67 (1): 143–171, Bibcode:1982InMat..67..143S, doi:10.1007/BF01393378, MR 0664330, S2CID 118575943.

Quaternion-Kähler symmetric space

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