Homological Lemmas for (Non-abelian) Group-Like Structures by Diagram Chasing in a Self-Dual Context

Kishan Kumar Dayaram; Amartya Goswami; Zurab Janelidze; Diana Rodelo; Tim Van der Linden

doi:10.1007/s10485-026-09862-2

Homological Lemmas for (Non-abelian) Group-Like Structures by Diagram Chasing in a Self-Dual Context

Kishan Kumar Dayaram
, Amartya Goswami
, Zurab Janelidze
, Diana Rodelo
, Tim Van der Linden

Mathematics and Applied Mathematics

University of Johannesburg
National Institute for Theoretical and Computational Sciences (NITheCS)
National Institute for Theoretical and Computational Sciences (NITheCS)
Stellenbosch University
University of Algarve
University of Aveiro
Université catholique de Louvain
Vrije Universiteit Brussel

Research output: Contribution to journal › Article › peer-review

Abstract

Through abelian categories, homological lemmas for modules admit a self-dual treatment, where half of the proof of a lemma is sufficient to prove the full lemma. In this paper we show how the context of a ‘noetherian form’, recently introduced by the second and third authors, allows a self-dual treatment of these lemmas even in the case of non-abelian categories of group-like structures. This context covers a wide range of examples: module categories, the category of groups, of graded abelian groups, the categories of Lie algebras, of cocommutative Hopf algebras, the category of Heyting semilattices, of loops, the dual of the category of pointed sets, the category of modular/distributive lattices and modular connections, the category of sets and partial bijections, and many others. More generally, it includes all semi-abelian and Grandis exact categories.

Original language	English
Article number	32
Journal	Applied Categorical Structures
Volume	34
Issue number	4
DOIs	https://doi.org/10.1007/s10485-026-09862-2
Publication status	Published - Aug 2026

Keywords

3×3 Lemma
Diagram lemma
Dragon Lemma
Five Lemma
Goursat’s Lemma
Group-like structure
Homomorphism induction
Noetherian form
Salamander Lemma
Semi-abelian category
Snail Lemma
Snake Lemma
Spider Lemma
Słomiński algebra
Weak Four Lemma

ASJC Scopus subject areas

Theoretical Computer Science
General Computer Science
Algebra and Number Theory

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10.1007/s10485-026-09862-2

Cite this

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title = "Homological Lemmas for (Non-abelian) Group-Like Structures by Diagram Chasing in a Self-Dual Context",

abstract = "Through abelian categories, homological lemmas for modules admit a self-dual treatment, where half of the proof of a lemma is sufficient to prove the full lemma. In this paper we show how the context of a {\textquoteleft}noetherian form{\textquoteright}, recently introduced by the second and third authors, allows a self-dual treatment of these lemmas even in the case of non-abelian categories of group-like structures. This context covers a wide range of examples: module categories, the category of groups, of graded abelian groups, the categories of Lie algebras, of cocommutative Hopf algebras, the category of Heyting semilattices, of loops, the dual of the category of pointed sets, the category of modular/distributive lattices and modular connections, the category of sets and partial bijections, and many others. More generally, it includes all semi-abelian and Grandis exact categories.",

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author = "Dayaram, \{Kishan Kumar\} and Amartya Goswami and Zurab Janelidze and Diana Rodelo and \{Van der Linden\}, Tim",

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doi = "10.1007/s10485-026-09862-2",

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AU - Dayaram, Kishan Kumar

AU - Goswami, Amartya

AU - Janelidze, Zurab

AU - Rodelo, Diana

AU - Van der Linden, Tim

N1 - Publisher Copyright: © The Author(s) 2026.

PY - 2026/8

Y1 - 2026/8

N2 - Through abelian categories, homological lemmas for modules admit a self-dual treatment, where half of the proof of a lemma is sufficient to prove the full lemma. In this paper we show how the context of a ‘noetherian form’, recently introduced by the second and third authors, allows a self-dual treatment of these lemmas even in the case of non-abelian categories of group-like structures. This context covers a wide range of examples: module categories, the category of groups, of graded abelian groups, the categories of Lie algebras, of cocommutative Hopf algebras, the category of Heyting semilattices, of loops, the dual of the category of pointed sets, the category of modular/distributive lattices and modular connections, the category of sets and partial bijections, and many others. More generally, it includes all semi-abelian and Grandis exact categories.

AB - Through abelian categories, homological lemmas for modules admit a self-dual treatment, where half of the proof of a lemma is sufficient to prove the full lemma. In this paper we show how the context of a ‘noetherian form’, recently introduced by the second and third authors, allows a self-dual treatment of these lemmas even in the case of non-abelian categories of group-like structures. This context covers a wide range of examples: module categories, the category of groups, of graded abelian groups, the categories of Lie algebras, of cocommutative Hopf algebras, the category of Heyting semilattices, of loops, the dual of the category of pointed sets, the category of modular/distributive lattices and modular connections, the category of sets and partial bijections, and many others. More generally, it includes all semi-abelian and Grandis exact categories.

KW - 3×3 Lemma

KW - Diagram lemma

KW - Dragon Lemma

KW - Five Lemma

KW - Goursat’s Lemma

KW - Group-like structure

KW - Homomorphism induction

KW - Noetherian form

KW - Salamander Lemma

KW - Semi-abelian category

KW - Snail Lemma

KW - Snake Lemma

KW - Spider Lemma

KW - Słomiński algebra

KW - Weak Four Lemma

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JO - Applied Categorical Structures

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M1 - 32

ER -

Homological Lemmas for (Non-abelian) Group-Like Structures by Diagram Chasing in a Self-Dual Context

Abstract

Keywords

ASJC Scopus subject areas

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