Gorenstein‐projective modules over short local algebras

Abstract

Following the well-established terminology in commutative algebra, any (not necessarily commutative) finite-dimensional local algebra A $A$ with radical J $J$ will be said to be short provided J 3 = 0 $J^3 = 0$ . As in the commutative case, we show: If a short local algebra A $A$ has an indecomposable non-projective Gorenstein-projective module M $M$ , then either A $A$ is self-injective (so that all modules are Gorenstein-projective) and then, of course, | J 2 | ⩽ 1 $|J^2| \leqslant 1$ , or else | J 2 | = | J / J 2 | − 1 $|J^2| = |J/J^2| - 1$ and | J M | = | J 2 | | M / J M | $|JM| = |J^2||M/JM|$ . More generally, we focus the attention to semi-Gorenstein-projective and ∞ $\infty$ -torsionfree modules, even to ℧ $\mho$ -paths of length 2, 3 and 4. In particular, we show that the existence of a non-projective reflexive module implies that | J 2 | < | J / J 2 | $|J^2| < |J/J^2|$ and further restrictions. In addition, we consider exact complexes of projective modules with a non-projective image. Again, as in the commutative case, we see that if such a complex exists, then A $A$ is self-injective or satisfies the condition | J 2 | = | J / J 2 | − 1 $|J^2| = |J/J^2| - 1$ . Also, we show that any non-projective semi-Gorenstein-projective module M $M$ satisfies Ext 1 ( M , M ) ≠ 0 $\operatorname{Ext}^1(M,M) \ne 0$ . In this way, we prove the Auslander-Reiten conjecture (one of the classical homological conjectures) for arbitrary short local algebras. Many arguments used in the commutative case actually work in general, but there are interesting differences and some of our results may be new also in the commutative case.