On Noncommutative Finite Factorization Domains
Abstract
A domain is said to have the finite factorization property if every nonzero non-unit element of has at least one and at most finitely many distinct factorizations up to multiplication of irreducible factors by central units. Let be an algebraically closed field and let be a -algebra. We show that if has an associated graded ring that is a domain with the property that the dimension of each homogeneous component is finite then is a finite factorization domain. As a corollary, we show that many classes of algebras have the finite factorization property, including Weyl algebras, enveloping algebras of finite-dimensional Lie algebras, quantum affine spaces and shift algebras. This provides a termination criterion for factorization procedures over these algebras. In addition, we give explicit upper bounds on the number of distinct factorizations of an element in terms of data from the filtration.
Cite
@article{arxiv.1410.6178,
title = {On Noncommutative Finite Factorization Domains},
author = {Jason P. Bell and Albert Heinle and Viktor Levandovskyy},
journal= {arXiv preprint arXiv:1410.6178},
year = {2019}
}