The Bruhat–Chevalley Order of Parabolic Group Actions in General Linear Groups and Degeneration for Δ-Filtered Modules

Brüstle, Thomas; Hille, Lutz; Röhrle, Gerhard; Zwara, Grzegorz

doi:10.1006/aima.1999.1851

Cited by 12 publications

(8 citation statements)

References 12 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In the case G = GL n (k), there has been much success in understanding the adjoint action of a parabolic subgroup through a translation in to the representation theory of certain quasi-hereditary algebras. This translation was first observed in [8], and has subsequently been further exploited, see for example, [2] and [4]. We refer the reader to [7] and [11] for recent related developments.…”

Section: Introductionmentioning

confidence: 85%

“…Remark 1.3. Using the results from [4] and the Auslander-Reiten quivers that we have calculated, it is possible to calculate the degenerations of P (d)-orbits in q u (a, d) in the finite cases. More precisely, let O, O ′ be P -orbits and M, M ′ the corresponding A(a)-modules.…”

Section: Introductionmentioning

confidence: 99%

“…More precisely, let O, O ′ be P -orbits and M, M ′ the corresponding A(a)-modules. In [4] it is shown that M is greater than M ′ in the hom-order if and only if O is a degeneration of O ′ . The hom-order can be read off from the Auslander-Reiten quiver.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Orbits of parabolic subgroups on metabelian ideals

Goodwin

Hille

Röhrle

2009

Bulletin des Sciences Mathématiques

View full text Add to dashboard Cite

Let k be an algebraically closed field, t ∈ Z ≥1 , and let B be the Borel subgroup of GL t (k) consisting of upper-triangular matrices. Let Q be a parabolic subgroup of GL t (k) that contains B and such that the Lie algebra q u of the unipotent radical of Q is metabelian, i.e. the derived subalgebra of q u is abelian. For a dimension vectorwe obtain a parabolic subgroup P (d) of GL n (k) from B by taking upper-triangular block matrices with (i, j) block of size d i × d j . In a similar manner we obtain a parabolic subgroup Q(d) of GL n (k) from Q. We determine all instances when P (d) acts on q u (d) with a finite number of orbits for all dimension vectors d. Our methods use a translation of the problem into the representation theory of certain quasi-hereditary algebras. In the finite cases, we use Auslander-Reiten theory to explicitly determine the P (d)-orbits; this also allows us to determine the degenerations of P (d)-orbits.

show abstract

Section: Introductionmentioning

confidence: 85%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Orbits of parabolic subgroups on metabelian ideals

Goodwin

Hille

Röhrle

2009

Bulletin des Sciences Mathématiques

View full text Add to dashboard Cite

show abstract

“…We explain the common idea and some generalizations. Note that degenerations have been already studied in [5].…”

Section: Parabolic Group Actionsmentioning

confidence: 98%

On the Complement of the Dense Orbit for a Quiver of Type 𝔸

Baur

Hille

2014

Communications in Algebra

View full text Add to dashboard Cite

Let t be the directed quiver of type with t vertices. For each dimension vector d, there is a dense orbit in the corresponding representation space. The principal aim of this note is to use just rank conditions to define the irreducible components in the complement of the dense orbit. Then we compare this result with already existing ones by Knight and Zelevinsky, and by Ringel. Moreover, we compare with the fan associated to the quiver t and derive a new formula for the number of orbits using nilpotent classes. In the complement of the dense orbit, we determine the irreducible components and their codimension. Finally, we consider several particular examples.

show abstract

“…Building on this idea, for , a connected reductive linear algebraic group over a field , and , a subgroup of ( ), Serre introduced the concept of a ' -analogue' of semisimplification from representation theory in [19,Section 3.2.4]. This notion is also used for representations of various kinds of algebras: for example, see [12], [8], [16], [23], and [24]. It is also an ingredient in work of Lawrence-Sawin on the Shafarevich Conjecture for abelian varieties [13] and work of Lawrence-Venkatesh on Mordell's Conjecture [14], which involve Galois representations taking values in possibly non-connected reductive -adic groups.…”

Section: Introductionmentioning

confidence: 99%

Semisimplification for subgroups of reductive algebraic groups

Bate

Martin²

2020

Forum of Mathematics, Sigma

View full text Add to dashboard Cite

Let G be a reductive algebraic group—possibly non-connected—over a field k, and let H be a subgroup of G. If $G= {GL }_n$ , then there is a degeneration process for obtaining from H a completely reducible subgroup $H'$ of G; one takes a limit of H along a cocharacter of G in an appropriate sense. We generalise this idea to arbitrary reductive G using the notion of G-complete reducibility and results from geometric invariant theory over non-algebraically closed fields due to the authors and Herpel. Our construction produces a G-completely reducible subgroup $H'$ of G, unique up to $G(k)$ -conjugacy, which we call a k-semisimplification of H. This gives a single unifying construction that extends various special cases in the literature (in particular, it agrees with the usual notion for $G= GL _n$ and with Serre’s ‘G-analogue’ of semisimplification for subgroups of $G(k)$ from [19]). We also show that under some extra hypotheses, one can pick $H'$ in a more canonical way using the Tits Centre Conjecture for spherical buildings and/or the theory of optimal destabilising cocharacters introduced by Hesselink, Kempf, and Rousseau.

show abstract

The Bruhat–Chevalley Order of Parabolic Group Actions in General Linear Groups and Degeneration for Δ-Filtered Modules

Cited by 12 publications

References 12 publications

Orbits of parabolic subgroups on metabelian ideals

Orbits of parabolic subgroups on metabelian ideals

On the Complement of the Dense Orbit for a Quiver of Type 𝔸

Semisimplification for subgroups of reductive algebraic groups

Contact Info

Product

Resources

About