Quantum Shuffles and Quantum Supergroups of Basic Type
Abstract
We initiate the study of several distinguished bases for the positive half of a quantum supergroup associated to a general super Cartan datum of basic type inside a quantum shuffle superalgebra. The combinatorics of words for an arbitrary total ordering on is developed in connection with the root system associated to . The monomial, Lyndon, and PBW bases of are constructed, and moreover, a direct proof of the orthogonality of the PBW basis is provided within the framework of quantum shuffles. Consequently, the canonical basis is constructed for associated to the standard super Cartan datum of type , , or or an arbitrary non-super Cartan datum. In the non-super case, this refines Leclerc's work and provides a new self-contained construction of canonical bases. The canonical bases of , of its polynomial modules, as well as of Kac modules in the case of quantum are explicitly worked out.
Cite
@article{arxiv.1310.7523,
title = {Quantum Shuffles and Quantum Supergroups of Basic Type},
author = {Sean Clark and David Hill and Weiqiang Wang},
journal= {arXiv preprint arXiv:1310.7523},
year = {2016}
}
Comments
50 pages, v2 added Lemmas 4.3 and 4.4, improved the proof of Lemma 4.5, added Theorem 5.5; v3 final version, to appear in Quantum Topology