Complex reflection groups

The Rouquier blocks of the cyclotomic Hecke algebras, introduced by Rouquier, are a substitute for the families of characters defined by Lusztig for Weyl groups, which can be applied to all complex reflection groups. In this article, we determine them for the cyclotomic Hecke algebras of the groups of the infinite seriesG(de, e, r), thus completing their calculation for all complex reflection groups.

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Euler Characteristic of the Truncated Order Complex of Generalized Noncrossing Partitions

The Electronic Journal of Combinatorics ◽

10.37236/232 ◽

2009 ◽

Vol 16 (1) ◽

Cited By ~ 1

Author(s):

D. Armstrong ◽

C. Krattenthaler

Keyword(s):

Euler Characteristic ◽

Order Complex ◽

Reflection Groups ◽

Noncrossing Partitions ◽

Minimal Elements ◽

Complex Reflection ◽

Complex Reflection Groups ◽

Phd Thesis

The purpose of this paper is to complete the study, begun in the first author's PhD thesis, of the topology of the poset of generalized noncrossing partitions associated to real reflection groups. In particular, we calculate the Euler characteristic of this poset with the maximal and minimal elements deleted. As we show, the result on the Euler characteristic extends to generalized noncrossing partitions associated to well-generated complex reflection groups.

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On Fomin–Kirillov algebras for complex reflection groups

Communications in Algebra ◽

10.1080/00927872.2016.1243698 ◽

2016 ◽

Vol 45 (8) ◽

pp. 3653-3666

Author(s):

Robert Laugwitz

Keyword(s):

Reflection Groups ◽

Complex Reflection ◽

Complex Reflection Groups

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Gröbner-Shirshov Bases for Temperley-Lieb Algebras of Complex Reflection Groups

Symmetry ◽

10.3390/sym10100438 ◽

2018 ◽

Vol 10 (10) ◽

pp. 438

Author(s):

Jeong-Yup Lee ◽

Dong-il Lee ◽

SungSoon Kim

Keyword(s):

Reflection Group ◽

Type B ◽

Reflection Groups ◽

Combinatorial Interpretation ◽

Complex Reflection ◽

Complex Reflection Groups ◽

Complex Reflection Group ◽

Standard Monomials ◽

Fully Commutative Elements ◽

The One

We construct a Gröbner-Shirshov basis of the Temperley-Lieb algebra T ( d , n ) of the complex reflection group G ( d , 1 , n ) , inducing the standard monomials expressed by the generators { E i } of T ( d , n ) . This result generalizes the one for the Coxeter group of type B n in the paper by Kim and Lee We also give a combinatorial interpretation of the standard monomials of T ( d , n ) , relating to the fully commutative elements of the complex reflection group G ( d , 1 , n ) . More generally, the Temperley-Lieb algebra T ( d , r , n ) of the complex reflection group G ( d , r , n ) is defined and its dimension is computed.

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Generalized Green functions associated to complex reflection groups

Journal of Algebra ◽

10.1016/j.jalgebra.2019.04.020 ◽

2020 ◽

Vol 558 ◽

pp. 677-707

Author(s):

Toshiaki Shoji

Keyword(s):

Green Functions ◽

Reflection Groups ◽

Complex Reflection ◽

Complex Reflection Groups

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An inductive approach to representations of complex reflection groups G(m, 1, n)

Theoretical and Mathematical Physics ◽

10.1007/s11232-013-0008-2 ◽

2013 ◽

Vol 174 (1) ◽

pp. 95-108 ◽

Cited By ~ 4

Author(s):

O. V. Ogievetsky ◽

L. Poulain d’Andecy

Keyword(s):

Reflection Groups ◽

Complex Reflection ◽

Complex Reflection Groups ◽

Inductive Approach

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DUNKL OPERATORS FOR COMPLEX REFLECTION GROUPS

Proceedings of the London Mathematical Society ◽

10.1112/s0024611502013825 ◽

2003 ◽

Vol 86 (1) ◽

pp. 70-108 ◽

Cited By ~ 47

Author(s):

C. F. DUNKL ◽

E. M. OPDAM

Keyword(s):

Reflection Groups ◽

Dunkl Operators ◽

Complex Reflection ◽

Complex Reflection Groups ◽

Commuting Operators ◽

Rham Complex ◽

Rational Cherednik Algebra ◽

De Rham ◽

Parameterized Family ◽

Primary 52C35

Dunkl operators for complex reflection groups are defined in this paper. These commuting operators give rise to a parameterized family of deformations of the polynomial De Rham complex. This leads to the study of the polynomial ring as a module over the ‘rational Cherednik algebra’, and a natural contravariant form on this module. In the case of the imprimitive complex reflection groups $G(m, p, N)$, the set of singular parameters in the parameterized family of these structures is described explicitly, using the theory of non-symmetric Jack polynomials.2000 Mathematical Subject Classification: 20F55 (primary), 52C35, 05E05, 33C08 (secondary).

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