Mathematics – Mathematical Physics
Scientific paper
Mar 1989
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1989cmaph.124...23c&link_type=abstract
Communications in Mathematical Physics, Volume 124, Issue 1, pp.23-55
Mathematics
Mathematical Physics
32
Scientific paper
Motivated by the problem of the moduli space of superconformal theories, we classify all the (normal) homogeneous Kähler spaces which are allowed in the coupling of vector multiplets to N=2 SUGRA. Such homogeneous spaces are in one-to-one correspondence with the homogeneous quaternionic spaces (≠ℍ H n ) found by Alekseevskii. There are two infinite families of homogeneous non-symmetric spaces, each labelled by two integers. We construct explicitly the corresponding supergravity models. They are described by a cubic function F, as in flat-potential models. They are Kähler-Einstein if and only if they are symmetric. We describe in detail the geometry of the relevant manifolds. They are Siegel (bounded) domains of the first type. We discuss the physical relevance of this class of bounded domains for string theory and the moduli geometry. Finally, we introduce the T-algebraic formalism of Vinberg to describe in an efficient way the geometry of these manifolds. The homogeneous spaces allowed in N=2 SUGRA are associated to rank 3 T-algebras in exactly the same way as the symmetric spaces are related to Jordan algebras. We characterize the T-algebras allowed in N=2 supergravity. They are those for which the ungraded determinant is a polynomial in the matrix entries. The Kähler potential is simply minus the logarithm of this “naive” determinant.
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