Spherical variety

In algebraic geometry, given a reductive algebraic group G and a Borel subgroup B, a spherical variety is a G-variety with an open dense B-orbit. It is sometimes also assumed to be normal. Examples are flag varieties, symmetric space and (affine or projective) toric varieties.

There is also a notion of real spherical varieties.

A projective spherical variety is a Mori dream space.[1]

Spherical embeddings are classified by so-called colored fans, a generalization of fans for toric varieties; this is known has the Luna-Vust Theory.

In his seminal paper, Luna (2001) develops a framework to classify complex spherical subgroups of reductive groups; he reduces the classification of spherical subgroups to wonderful subgroups. He works out completely the case of groups of type A and conjectures that the combinatorial objects (homogeneous spherical data) he introduces indeed provide a combinatorial classification of spherical subgroups. This has been known as the Luna Conjecture. This classification is now completed according to Luna's program; see contributions of Bravi, Cupit-Foutou, Losev and Pezzini.


As conjectured by Knop, every "smooth" affine spherical variety is uniquely determined by its weight monoid. This uniqueness result has been proved by Losev.

Knop (2013) has been developing a program to classify spherical varieties in arbitrary characteristic.


References

  1. Brion, Michel (2007). "The total coordinate ring of a wonderful variety". Journal of Algebra 313 (1): 61–99. doi:10.1016/j.jalgebra.2006.12.022.
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