English

Standard Modules, Induction and the Temperley-Lieb Algebra

Mathematical Physics 2014-07-09 v4 High Energy Physics - Theory math.MP Representation Theory

Abstract

The basic properties of the Temperley-Lieb algebra TLnTL_n with parameter β=q+q1\beta = q + q^{-1}, for qq any non-zero complex number, are reviewed in a pedagogical way. The link and standard (cell) modules that appear in numerous physical applications are defined and a natural bilinear form on the standard modules is used to characterize their maximal submodules. When this bilinear form has a non-trivial radical, some of the standard modules are reducible and TLnTL_n is non-semisimple. This happens only when qq is a root of unity. Use of restriction and induction allows for a finer description of the structure of the standard modules. Finally, a particular central element FnF_n of TLnTL_n is studied; its action is shown to be non-diagonalisable on certain indecomposable modules and this leads to a proof that the radicals of the standard modules are irreducible. Moreover, the space of homomorphisms between standard modules is completely determined. The principal indecomposable modules are then computed concretely in terms of standard modules and their inductions. Examples are provided throughout and the delicate case β=0\beta = 0, that plays an important role in physical models, is studied systematically.

Cite

@article{arxiv.1204.4505,
  title  = {Standard Modules, Induction and the Temperley-Lieb Algebra},
  author = {David Ridout and Yvan Saint-Aubin},
  journal= {arXiv preprint arXiv:1204.4505},
  year   = {2014}
}

Comments

47 pages, 4 figures, many diagrams; v2: 70 pages, reset with new class as per journal requirements; v3: 78 pages, added in Sec. 2 proof that abstract TL is isomorphic to diagram TL and rewrote part of Sec. 8 to avoid Lemma 8.1 (which was wrong), results unchanged; v4: 51 pages, reset in amsart, to appear in ATMP vol. 18

R2 v1 2026-06-21T20:52:23.381Z