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Higher Ideal Approximation Theory

Representation Theory 2020-10-27 v1

Abstract

Let C{\mathscr{C}} be an nn-cluster tilting subcategory of an exact category (A,E)({\mathscr{A}}, {\mathscr{E}}), where n1n \geq 1 is an integer. It is proved by Jasso that if n>1n> 1, then C{\mathscr{C}} although is no longer exact, but has a nice structure known as nn-exact structure. In this new structure conflations are called admissible nn-exact sequences and are E{\mathscr{E}}-acyclic complexes with n+2n+2 terms in C{\mathscr{C}}. Since their introduction by Iyama, cluster tilting subcategories has gained a lot of traction, due largely to their links and applications to many research areas, many of them unexpected. On the other hand, ideal approximation theory, that is a gentle generalization of the classical approximation theory and deals with morphisms and ideals instead of objects and subcategories, is an active area that has been the subject of several researches. Our aim in this paper is to introduce the so-called `ideal approximation theory' into `higher homological algebra'. To this end, we introduce some important notions in approximation theory into the theory of nn-exact categories and prove some results. In particular, the higher version of the notions such as ideal cotorsion pairs, phantom ideals, Salce's Lemma and Wakamatsu's Lemma for ideals will be introduced and studied. Our results motivate the definitions and show that nn-exact categories are the appropriate context for the study of `higher ideal approximation theory'.

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Cite

@article{arxiv.2010.13203,
  title  = {Higher Ideal Approximation Theory},
  author = {Javad Asadollahi and Somayeh Sadeghi},
  journal= {arXiv preprint arXiv:2010.13203},
  year   = {2020}
}

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R2 v1 2026-06-23T19:38:08.319Z