English

Leavitt Path Algebras as Flat Bimorphic Localizations

Rings and Algebras 2021-08-30 v1

Abstract

Refining an idea of Rosenmann and Rosset we show that the now widely studied classical Leavitt algebra LK(1,n)L_K(1,n) over a field KK is a ring of right quotients of the unital free associative algebra of rank nn with respect to the perfect Gabriel topology defined by powers of an ideal of codimension 1, providing a conceptual, variable-free description of LK(1,n)L_K(1, n). This result puts Leavitt (path) algebras on the frontier of important research areas in localization theory, free ideal rings and their automorphism groups, quiver algebras and graph operator algebras. As applications one obtains a short, transparent proof for the module type (1,n)(n2)(1,n)\, (n\geq 2) of Leavitt algebra LK(1,n)(n2)L_K(1, n)\, (n\geq 2), and the fact that Leavitt path algebras of finite graphs are rings of quotients of corresponding ordinary quiver algebras with respect to the perfect Gabriel topology defined by powers of the ideal generated by all arrows and sinks. In particular, the Jacobson algebra of one-sided inverses, that is, the Toeplitz algebra, can also be realized as a flat ring of quotients, further illuminating the rich structure of these beautiful, useful algebras.

Keywords

Cite

@article{arxiv.2108.11987,
  title  = {Leavitt Path Algebras as Flat Bimorphic Localizations},
  author = {Pham Ngoc Anh and Michael Frank Siddoway},
  journal= {arXiv preprint arXiv:2108.11987},
  year   = {2021}
}

Comments

26 pages

R2 v1 2026-06-24T05:27:12.145Z