Cellular bases of generalised q-Schur algebras

AbstractStarting from their defining presentation by generators and relations, we develop the basic structure and representation theory of generalised q-Schur algebras of finite type.

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The modular representation theory of $q$-Schur algebras

Transactions of the American Mathematical Society ◽

10.1090/s0002-9947-1992-1022165-3 ◽

1992 ◽

Vol 329 (1) ◽

pp. 253-271

Author(s):

Jie Du

Keyword(s):

Representation Theory ◽

Modular Representation ◽

Modular Representation Theory ◽

Schur Algebras

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A combinatorial identity for the derivative of a theta series of a finite type root lattice

Nagoya Mathematical Journal ◽

10.1017/s002776300000862x ◽

2003 ◽

Vol 172 ◽

pp. 1-30

Author(s):

Satoshi Naito

Keyword(s):

Representation Theory ◽

Lie Algebra ◽

Finite Type ◽

Cartan Subalgebra ◽

Theta Series ◽

Combinatorial Identity ◽

Root Lattice ◽

Simple Lie Algebra ◽

Finite Dimensional ◽

Affine Lie Algebra

AbstractLet be a (not necessarily simply laced) finite-dimensional complex simple Lie algebra with the Cartan subalgebra and Q ⊂ * the root lattice. Denote by ΘQ(q) the theta series of the root lattice Q of . We prove a curious “combinatorial” identity for the derivative of ΘQ(q), i.e. for by using the representation theory of an affine Lie algebra.

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Applications of Frobenius Algebras to Representation Theory of Schur Algebras

Journal of Algebra ◽

10.1006/jabr.1997.7201 ◽

1998 ◽

Vol 199 (2) ◽

pp. 591-617 ◽

Cited By ~ 3

Author(s):

L. Delvaux ◽

E. Nauwelaerts

Keyword(s):

Representation Theory ◽

Schur Algebras ◽

Frobenius Algebras

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Knot Theory and Statistical Mechanics

International Journal of Modern Physics B ◽

10.1142/s021797929700006x ◽

1997 ◽

Vol 11 (01n02) ◽

pp. 39-49 ◽

Cited By ~ 1

Author(s):

Louis H. Kauffman

Keyword(s):

Statistical Mechanics ◽

Finite Type ◽

Simple Proof ◽

Knot Theory ◽

Scattering Amplitude ◽

Basic Structure ◽

Vassiliev Invariants ◽

Link Invariants ◽

Quantum Link

This paper gives a self-contained exposition of the basic structure of quantum link invariants as state summations for a vacuum-vacuum scattering amplitude. Models of Vaughan Jones are expressed in this context. A simple proof is given that an important subset of these invariants are built from Vassiliev invariants of finite type.

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GEOMETRY OF QUANTUM HOMOGENEOUS VECTOR BUNDLES AND REPRESENTATION THEORY OF QUANTUM GROUPS I

Reviews in Mathematical Physics ◽

10.1142/s0129055x99000209 ◽

1999 ◽

Vol 11 (05) ◽

pp. 533-552 ◽

Cited By ~ 7

Author(s):

A. R. GOVER ◽

R. B. ZHANG

Keyword(s):

Representation Theory ◽

Finite Type ◽

Quantum Groups ◽

Vector Bundles ◽

Homogeneous Spaces ◽

Projective Modules ◽

Geometrical Structures ◽

Induced Representations ◽

Compact Quantum Groups ◽

Homogeneous Vector

Quantum homogeneous vector bundles are introduced in the context of Woronowicz type compact quantum groups. The bundles carry natural topologies, and their sections furnish finite type projective modules over algebras of functions on quantum homogeneous spaces. Further properties of the quantum homogeneous vector bundles are investigated, and applied to the study of the geometrical structures of induced representations of quantum groups.

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Canonical bases and higher representation theory

Compositio Mathematica ◽

10.1112/s0010437x1400760x ◽

2014 ◽

Vol 151 (1) ◽

pp. 121-166 ◽

Cited By ~ 18

Author(s):

Ben Webster

Keyword(s):

General Theory ◽

Representation Theory ◽

Finite Type ◽

Canonical Basis ◽

Canonical Bases ◽

Enveloping Algebra ◽

Highest Weight ◽

Natural Categories ◽

Grothendieck Groups ◽

Quantized Universal Enveloping Algebra

AbstractThis paper develops a general theory of canonical bases and how they arise naturally in the context of categorification. As an application, we show that Lusztig’s canonical basis in the whole quantized universal enveloping algebra is given by the classes of the indecomposable 1-morphisms in a categorification when the associated Lie algebra is of finite type and simply laced. We also introduce natural categories whose Grothendieck groups correspond to the tensor products of lowest- and highest-weight integrable representations. This generalizes past work of the author’s in the highest-weight case.

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Young modules for symmetric groups

Journal of the Australian Mathematical Society ◽

10.1017/s1446788700002846 ◽

2001 ◽

Vol 71 (2) ◽

pp. 201-210 ◽

Cited By ~ 23

Author(s):

Karin Erdmann

Keyword(s):

Representation Theory ◽

Finite Groups ◽

Symmetric Groups ◽

General Linear ◽

Linear Groups ◽

Schur Algebras ◽

General Linear Groups ◽

Green Correspondence

AbstractLet K be a field of characteristic p. The permutation modules associated to partitions of n, usually denoted as Mλ, play a central role not only for symmetric groups but also for general linear groups, via Schur algebras. The indecomposable direct summands of these Mλ were parametrized by James; they are now known as Young modules; and Klyachko and Grabmeier developed a ‘Green correspondence’ for Young modules. The original parametrization used Schur algebras; and James remarked that he did not know a proof using only the representation theory of symmetric groups. We will give such proof, and we will at the same time also prove the correspondence result, by using only the Brauer construction, which is valid for arbitrary finite groups.

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Presenting Little q-Schur Algebras uk(2; r)

Algebra Colloquium ◽

10.1142/s1005386717000177 ◽

2017 ◽

Vol 24 (02) ◽

pp. 297-308

Author(s):

Zhihao Bian ◽

Mingqiang Liu

Keyword(s):

Quantum Groups ◽

Schur Algebras ◽

Du Fu ◽

Generators And Relations

Little q-Schur algebras were introduced as homomorphic images of the infinitesimal quantum groups by Du, Fu and Wang. In this paper, we obtain a presentation by generators and relations for little q-Schur algebras uk(2, r).

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Generators and relations for Schur algebras

Electronic Research Announcements of the American Mathematical Society ◽

10.1090/s1079-6762-01-00094-4 ◽

2001 ◽

Vol 7 (8) ◽

pp. 54-62 ◽

Cited By ~ 3

Author(s):

Stephen Doty ◽

Anthony Giaquinto

Keyword(s):

Schur Algebras ◽

Generators And Relations

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Affine symmetric group

WikiJournal of Science ◽

10.15347/wjs/2021.003 ◽

2021 ◽

Vol 4 (1) ◽

pp. 3

Author(s):

Joel Brewster Lewis

Keyword(s):

Representation Theory ◽

Symmetric Group ◽

Mathematical Structure ◽

Number Line ◽

Geometric Description ◽

Generators And Relations ◽

Higher Dimensional ◽

Finite Set ◽

Finite Symmetric Group

The affine symmetric group is a mathematical structure that describes the symmetries of the number line and the regular triangular tesselation of the plane, as well as related higher dimensional objects. It is an infinite extension of the symmetric group, which consists of all permutations (rearrangements) of a finite set. In additition to its geometric description, the affine symmetric group may be defined as the collection of permutations of the integers (..., −2, −1, 0, 1, 2, ...) that are periodic in a certain sense, or in purely algebraic terms as a group with certain generators and relations. These different definitions allow for the extension of many important properties of the finite symmetric group to the infinite setting, and are studied as part of the fields of combinatorics and representation theory.

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