English

The coalgebra extension problem for $\mathbb Z/p$

Quantum Algebra 2022-01-28 v2

Abstract

For a coalgebra CkC_k over field kk, we define the "coalgebra extension problem" as the question: what multiplication laws can we define on CkC_k to make it a bialgebra over kk? This paper answers this existence-uniqueness question for certain coalgebras called "circulant coalgebras". We begin with the trigonometric coalgebra, comparing and contrasting with the group-(bi)algebra k[Z/2]k[\mathbb Z/2]. This leads to a generalization, the dual coalgebra to the group-algebra k[Z/p]k[\mathbb Z/p], which we then investigate. We show connections with other questions, motivating us to answer to the coalgebra extension problem for these families. The answer depends interestingly on the base field kk's characteristic. Along similar lines, we investigate the algebraic group S1S^1 over arbitrary kk. We find that similar complications arise in characteristic 2. We explore this, motivated (by quantum groups) by the question of whether or not O(S1)\mathcal{O}(S^1) is pointed. We give a very explicit conjecture in terms of the Chebyshev polynomials of trigonometry. We end by constructing a formal group object, in a certain monoidal category of modules of k[[h]]k[[h]], as a 2nd2^{\text{nd}} order deformation of k[t]k[t].

Keywords

Cite

@article{arxiv.1812.10159,
  title  = {The coalgebra extension problem for $\mathbb Z/p$},
  author = {Aaron Brookner},
  journal= {arXiv preprint arXiv:1812.10159},
  year   = {2022}
}
R2 v1 2026-06-23T06:55:55.407Z