School of Mathematical Sciences

Quantum Mathematics and AAG Seminar: Guillermo Sanmarco (Iowa State)

Location
Physics Building, Room B23
Date(s)
Wednesday 29th June 2022 (14:00-15:00)
Contact

Robert Laugwitz (organizer)

Description

 Joint Quantum Maths and Algebra, Arithmetic and their Geometries (AAG) Seminar, external speaker.


Speaker: Guillermo Sanmarco

Title: Pointed Hopf algebras over non-abelian groups

Abstract: The quantum group associated with a complex Lie algebra is a Hopf algebra for which the coradical (i.e., the biggest cosemisimple part) is an abelian group algebra. From that point of view, the quantum group is a pointed Hopf algebra over an abelian group. In the early 2000s, Andruskiewitsch-Schneider designed a strategy to obtain a classification of pointed Hopf algebras by studying two invariants: the coradical and certain braided subalgebra. This strategy led to a complete classification of finite-dimensional pointed Hopf algebras with abelian coradical. 

We will begin this talk with a brief review of the main ingredients that led to the classification in the abelian case. The braided objects aforementioned are generalizations of the positive parts of small quantum groups, known as Nichols algebras. As happens for quantum groups, we will see that these Nichols algebras are equipped with several combinatorial structures, which are fundamental for the classification. 

Then we will focus on the classification problem in the non-abelian realm, where the main obstruction is the lack of a complete understanding of the Nichols algebras. However, a big family of finite-dimensional Nichols algebras over non-abelian groups were recently classified by Heckenberger-Vendramin, again using combinatorial structures reminiscent of quantum groups. The ultimate goal of this talk is to report on recent joint work with Angiono and Lentner, where we classified all Hopf algebras over these Nichols algebras. We will explain how we were able to translate to our setting several results known in the abelian case using the folding construction for Nichols algebras due to Lentner.

 

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