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| In [[mathematics]], a '''generalized flag variety''' (or simply '''flag variety''') is a [[homogeneous space]] whose points are [[flag (linear algebra)|flags]] in a finite-dimensional [[vector space]] ''V'' over a [[field (mathematics)|field]] '''F'''. When '''F''' is the real or complex numbers, a generalized flag variety is a [[smooth manifold|smooth]] or [[complex manifold]], called a '''real''' or '''complex''' '''flag manifold'''. Flag varieties are naturally [[projective variety|projective varieties]].
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| Flag varieties can be defined in various degrees of generality. A prototype is the variety of complete flags in a vector space ''V'' over a field '''F''', which is a flag variety for the [[special linear group]] over '''F'''. Other flag varieties arise by considering partial flags, or by restriction from the special linear group to subgroups such as the [[symplectic group]]. For partial flags, one needs to specify the sequence of dimensions of the flags under consideration. For subgroups of the linear group, additional conditions must be imposed on the flags.
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| The most general concept of a generalized flag variety is a [[conjugacy class]] of [[parabolic subgroup]]s of a [[semisimple algebraic group|semisimple]] [[linear algebraic group|algebraic]] or [[Lie group]] ''G'': ''G'' acts transitively on such a conjugacy class by conjugation, and the stabilizer of a parabolic ''P'' is ''P'' itself, so that the generalized flag variety is isomorphic to ''G''/''P''. It may also be realised as the orbit of a [[highest weight|highest]] [[weight space]] in a projectivized [[group representation|representation]] of ''G''. In the algebraic setting, generalized flag varieties are precisely the homogeneous spaces for ''G'' which are [[complete variety|complete]] as algebraic varieties. In the smooth setting, generalized flag manifolds are the [[compact space|compact]] flat model spaces for [[Parabolic geometry|Cartan geometries]] of parabolic type, and are homogeneous [[Riemannian manifold]]s under any maximal compact subgroup of ''G''.
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| Flag manifolds can be [[symmetric space]]s. Over the complex numbers, the corresponding flag manifolds are the [[Hermitian symmetric space]]s. Over the real numbers, an ''R''-space is a synonym for a real flag manifold and the corresponding symmetric spaces are called symmetric ''R''-spaces.
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| ==Flags in a vector space==
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| {{main|flag (linear algebra)}}
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| A flag in a finite dimensional vector space ''V'' over a field '''F''' is an increasing sequence of [[Linear_subspace|subspace]]s, where "increasing" means each is a proper subspace of the next (see [[filtration (abstract algebra)|filtration]]):
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| :<math>\{0\} = V_0 \sub V_1 \sub V_2 \sub \cdots \sub V_k = V.</math>
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| If we write the dim ''V''<sub>''i''</sub> = ''d''<sub>''i''</sub> then we have
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| :<math>0 = d_0 < d_1 < d_2 < \cdots < d_k = n,</math>
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| where ''n'' is the [[dimension (linear algebra)|dimension]] of ''V''. Hence, we must have ''k'' ≤ ''n''. A flag is called a ''complete flag'' if ''d''<sub>''i''</sub> = ''i'', otherwise it is called a ''partial flag''. The ''signature'' of the flag is the sequence (''d''<sub>1</sub>, …, ''d''<sub>''k''</sub>).
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| A partial flag can be obtained from a complete flag by deleting some of the subspaces. Conversely, any partial flag can be completed (in many different ways) by inserting suitable subspaces.
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| ==Prototype: the complete flag variety==
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| According to basic results of [[linear algebra]], any two complete flags in an ''n''-dimensional vector space ''V'' over a field '''F''' are no different from each other from a geometric point of view. That is to say, the [[general linear group]] [[group action|acts]] transitively on the set of all complete flags.
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| Fix an ordered [[basis (linear algebra)|basis]] for ''V'', identifying it with '''F'''<sup>''n''</sup>, whose general linear group is the group GL(''n'','''F''') of ''n'' × ''n'' invertible matrices. The standard flag associated with this basis is the one where the ''i'' th subspace is spanned by the first ''i'' vectors of the basis. Relative to this basis, the [[stabilizer (group theory)|stabilizer]] of the standard flag is the [[group (mathematics)|group]] of nonsingular [[upper triangular matrix|upper triangular matrices]], which we denote by ''B''<sub>''n''</sub>. The complete flag variety can therefore be written as a [[homogeneous space]] GL(''n'','''F''') / ''B''<sub>''n''</sub>, which shows in particular that it has dimension ''n''(''n''−1)/2 over '''F'''.
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| Note that the multiples of the identity act trivially on all flags, and so one can restrict attention to the [[special linear group]] SL(''n'','''F''') of matrices with determinant one, which is a semisimple algebraic group; the set of upper triangular matrices of determinant one is a [[Borel subgroup]].
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| If the field '''F''' is the real or complex numbers we can introduce an [[inner product]] on ''V'' such that the chosen basis is [[orthonormal]]. Any complete flag then splits into a direct sum of one dimensional subspaces by taking orthogonal complements. It follows that the complete flag manifold over the complex numbers is the [[homogeneous space]]
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| :<math>U(n)/T^n</math>
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| where U(''n'') is the [[unitary group]] and T<sup>''n''</sup> is the ''n''-torus of diagonal unitary matrices. There is a similar description over the real numbers with U(''n'') replaced by the orthogonal group O(''n''), and T<sup>''n''</sup> by the diagonal orthogonal matrices (which have diagonal entries ±1).
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| ==Partial flag varieties==
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| The partial flag variety
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| :<math> F(d_1,d_2,\ldots d_k, \mathbb F)</math>
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| is the space of all flags of signature (''d''<sub>1</sub>, ''d''<sub>2</sub>, … ''d''<sub>''k''</sub>) in a vector space ''V'' of dimension ''n'' = ''d''<sub>''k''</sub> over '''F'''. The complete flag variety is the special case that ''d''<sub>''i''</sub> = ''i'' for all ''i''. When ''k''=2, this is a [[Grassmannian]] of ''d''<sub>1</sub>-dimensional subspaces of ''V''.
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| This is a homogeneous space for the general linear group ''G'' of ''V'' over '''F'''. To be explicit, take ''V'' = '''F'''<sup>''n''</sup> so that ''G'' = GL(''n'','''F'''). The stabilizer of a flag of nested subspaces ''V''<sub>''i''</sub> of dimension ''d''<sub>''i''</sub> can be taken to be the group of nonsingular [[block matrix|block]] upper triangular matrices, where the dimensions of the blocks are ''n''<sub>''i''</sub> := ''d''<sub>''i''</sub> − ''d''<sub>''i''−1</sub> (with ''d''<sub>0</sub> = 0).
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| Restricting to matrices of determinant one, this is a parabolic subgroup ''P'' of SL(''n'','''F'''), and thus the partial flag variety is isomorphic to the homogeneous space SL(''n'','''F''')/''P''.
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| If '''F''' is the real or complex numbers, then an inner product can be used to split any flag into a direct sum, and so the partial flag variety is also isomorphic to the homogeneous space
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| :<math> U(n)/U(n_1)\times\cdots \times U(n_k)</math> | |
| in the complex case, or
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| :<math> O(n)/O(n_1)\times\cdots\times O(n_k)</math>
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| in the real case.
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| ==Generalization to semisimple groups ==
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| The upper triangular matrices of determinant one are a Borel subgroup of SL(''n'','''F'''), and hence the stabilizers of partial flags are parabolic subgroups. Furthermore, a partial flag is determined by the parabolic subgroup which stabilizes it.
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| Hence, more generally, if ''G'' is a [[semisimple group|semisimple]] [[linear algebraic group|algebraic]] or [[Lie group]], then the (generalized) flag variety for ''G'' is ''G''/''P'' where ''P'' is a parabolic subgroup of ''G''. The correspondence between parabolic subgroups and generalized flag varieties allows each to be understood in terms of the other.
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| The extension of the terminology "flag variety" is reasonable, because points of ''G''/''P'' can still be described using flags. When ''G'' is a [[classical Lie group|classical group]], such as a [[symplectic group]] or [[orthogonal group]], this is particularly transparent. If (''V'', ''ω'') is a [[symplectic vector space]] then a partial flag in ''V'' is ''[[isotropic]]'' if the symplectic form vanishes on proper subspaces of ''V'' in the flag. The stabilizer of an isotropic flag is a parabolic subgroup of the symplectic group Sp(''V'',''ω''). For orthogonal groups there is a similar picture, with a couple of complications. First, if '''F''' is not algebraically closed, then isotropic subspaces may not exist: for a general theory, one needs to use the [[split orthogonal group]]s. Second, for vector spaces of even dimension 2''m'', isotropic subspaces of dimension ''m'' come in two flavours ("self-dual" and "anti-self-dual") and one needs to distinguish these to obtain a homogeneous space.
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| ==Highest weight orbits and homogeneous projective varieties==
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| If ''G'' is a semisimple algebraic group (or Lie group) and ''V'' is a (finite dimensional) highest weight representation of ''G'', then the highest weight space is a point in the [[projective space]] P(''V'') and its orbit under the action of ''G'' is a [[projective algebraic variety]]. This variety is a (generalized) flag variety, and furthermore, every (generalized) flag variety for ''G'' arises in this way.
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| [[Armand Borel]] showed that this characterizes the flag varieties of a general semisimple algebraic group ''G'': they are precisely the [[complete variety|complete]] homogeneous spaces of ''G'', or equivalently (in this context), the projective ''G''-varieties.
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| ==Symmetric spaces==
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| {{main|Symmetric space}}
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| Let ''G'' be a semisimple Lie group with maximal compact subgroup ''K''. Then ''K'' acts transitively on any conjugacy class of parabolic subgroups, and hence the generalized flag variety ''G''/''P'' is a compact homogeneous [[Riemannian manifold]] ''K''/(''K''∩''P'') with isometry group ''K''. Furthermore, if ''G'' is a complex Lie group, ''G''/''P'' is a homogeneous [[Kähler manifold]].
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| Turning this around, the Riemannian homogeneous spaces
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| :''M'' = ''K''/(''K''∩''P'')
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| admit a strictly larger Lie group of transformations, namely ''G''. Specializing to the case that ''M'' is a [[symmetric space]], this observation yields all symmetric spaces admitting such a larger symmetry group, and these spaces have been classified by Kobayashi and Nagano.
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| If ''G'' is a complex Lie group, the symmetric spaces ''M'' arising in this way are the compact [[Hermitian symmetric space]]s: ''K'' is the isometry group, and ''G'' is the biholomorphism group of ''M''.
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| Over the real numbers, a real flag manifold is also called an R-space, and the R-spaces which are Riemannian symmetric spaces under ''K'' are known as symmetric R-spaces. The symmetric R-spaces which are not Hermitian symmetric are obtained by taking ''G'' to be a [[real form]] of the biholomorphism group ''G''<sup>c</sup> of a Hermitian symmetric space ''G''<sup>c</sup>/''P''<sup>c</sup> such that ''P'' := ''P''<sup>c</sup>∩''G'' is a parabolic subgroup of ''G''. Examples include [[projective space]]s (with ''G'' the group of [[projective transformation]]s) and [[sphere]]s (with ''G'' the group of [[conformal transformation]]s).
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| ==See also==
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| * [[Parabolic Lie algebra]]
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| ==References==
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| * Robert J. Baston and Michael G. Eastwood, ''The Penrose Transform: its Interaction with Representation Theory'', Oxford University Press, 1989.
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| * Jürgen Berndt, ''[http://www.mth.kcl.ac.uk/~berndt/sophia.pdf Lie group actions on manifolds]'', Lecture notes, Tokyo, 2002.
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| * Jürgen Berndt, Sergio Console and Carlos Olmos, ''[http://books.google.co.uk/books?id=u3w4f63rmU8C Submanifolds and Holonomy]'', Chapman & Hall/CRC Press, 2003.
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| * Michel Brion, ''[http://www-fourier.ujf-grenoble.fr/~mbrion/notes.html Lectures on the geometry of flag varieties]'', Lecture notes, Varsovie, 2003.
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| * James E. Humphreys, ''[http://books.google.co.uk/books?id=hNgRLxlwL8oC Linear Algebraic Groups]'', Graduate Texts in Mathematics, 21, Springer-Verlag, 1972.
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| * S. Kobayashi and T. Nagano, ''On filtered Lie algebras and geometric structures'' I, II, J. Math. Mech. '''13''' (1964), 875–907, '''14''' (1965) 513–521.
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| [[Category:Differential geometry]]
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| [[Category:Algebraic homogeneous spaces]]
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