A note on stable equivalences of Morita type

Dugas, Alex; Martínez-Villa, Roberto

doi:10.1016/j.jpaa.2006.01.007

Cited by 34 publications

(34 citation statements)

References 14 publications

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“…(i) For each algebra A, there is an associated self-injective algebra (see Subsection 2.3), which we denote by ∆ A . The result [11,Theorem 4.2] shows that if A/rad(A) and B/rad(B) are separable then every stable equivalence of Morita type between A and B restricts to a stable equivalence of Morita type between the associated self-injective algebras ∆ A and ∆ B . As an immediate consequence of Theorem 1.3, we have the following corollary.…”

Section: Proof Of Theorem 13mentioning

confidence: 99%

Derived equivalences and stable equivalences of Morita type, II

2018

Rev. Mat. Iberoam.

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Motivated by understanding the Broué's abelian defect group conjecture from algebraic point of view, we consider the question of how to lift a stable equivalence of Morita type between arbitrary finite dimensional algebras to a derived equivalence. In this paper, we present a machinery to solve this question for a class of stable equivalences of Morita type. In particular, we show that every stable equivalence of Morita type between Frobenius-finite algebras over an algebraically closed field can be lifted to a derived equivalence. Especially, Auslander-Reiten conjecrure is true for stable equivalences of Morita type between Frobenius-finite algebras without semisimple direct summands. Examples of such a class of algebras are abundant, including Auslander algebras, cluster-tilted algebras and certain Frobenius extensions. As a byproduct of our methods, we further show that, for a Nakayama-stable idempotent element e in an algebra A over an arbitrary field, each tilting complex over eAe can be extended to a tilting complex over A that induces an almost ν-stable derived equivalence studied in the first paper of this series. Moreover, we demonstrate that our techniques are applicable to verify the Broué's abelian defect group conjecture for several cases mentioned by Okuyama.

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Section: Proof Of Theorem 13mentioning

confidence: 99%

Derived equivalences and stable equivalences of Morita type, II

2018

Rev. Mat. Iberoam.

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“…In order to prove Theorem 3.1, we shall use the following technical notion, motivated by Dugas and Martinez-Villa [12]. (v) A direct summand of a strongly right nonsingular bimodule is also strongly right nonsingular.…”

Section: Singular Equivalences Of Morita Typementioning

confidence: 99%

“…First, we shall prove in Theorem 3.1 that under mild conditions a singular equivalence of Morita type gives rise to a bi-adjoint pair. This section is inspired by an analogous approach by Alex Dugas and Roberto Martinez-Villa [12]. Then we shall investigate Hochschild homology and show in Theorem 4.1 that Hochschild homology of a finite dimensional algebra over a field and in strictly positive degrees is invariant under a singular equivalence of Morita type.…”

Section: Introductionmentioning

confidence: 99%

On singular equivalences of Morita type

Zhou

Zimmermann

2013

Journal of Algebra

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Stable equivalences of Morita type preserve many interesting properties and is proved to be the appropriate concept to study for equivalences between stable categories. Recently the singularity category attained much attraction and Xiao-Wu Chen and Long-Gang Sun gave an appropriate definition of singular equivalence of Morita type. We shall show that under some conditions singular equivalences of Morita type have some biadjoint functor properties and preserve positive degree Hochschild homology.

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“…where A P A and B Q B are projective bimodules. Proof Note that under the assumption of this lemma, by [7] we can assume that both (N ⊗ A −, M ⊗ B −) and (M ⊗ B −, N ⊗ A −) are adjoint pairs. In particular, N ⊗ A − and M ⊗ B − maps projective (injective, respectively) modules to projective (injective, respectively) modules, and P and Q are projective-injective bimodules.…”

Section: Simple-minded Systems and Triangular Algebrasmentioning

confidence: 99%

Simple-Minded Systems in Stable Module Categories

Koenig

Liu

2011

The Quarterly Journal of Mathematics

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Abstract. Simple-minded systems in stable module categories are defined by orthogonality and generating properties so that the images of the simple modules under a stable equivalence form such a system. Simple-minded systems are shown to be invariant under stable equivalences; thus the set of all simple-minded systems is an invariant of a stable module category. The simple-minded systems of several classes of algebras are described and connections to the Auslander-Reiten conjecture are pointed out.

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A note on stable equivalences of Morita type

Cited by 34 publications

References 14 publications

Derived equivalences and stable equivalences of Morita type, II

Derived equivalences and stable equivalences of Morita type, II

On singular equivalences of Morita type

Simple-Minded Systems in Stable Module Categories

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