The Coxeter transformation as an automorphism of the Tamarkin--Tsygan calculus

Abstract

Let A be a finite-dimensional algebra over a field . We show that the Auslander--Reiten bimodule A:= A[-1] is central in the derived Picard group of A and that, when A<∞, it induces through the derived-invariance functor of Armenta19,ArmentaKeller17,ArmentaKeller19 a canonical automorphism σA of the Tamarkin--Tsygan calculus of A; the pair ((A),σA) is invariant under derived equivalence. We then compute both components of σA. On the Hochschild homology of an elementary algebra, which is concentrated in degree zero, the matrix of σA in the basis of idempotent traces is -CA-1CAT, so its characteristic polynomial is the Coxeter polynomial; the enriched calculus strictly refines both the calculus and the Coxeter polynomial, as the path algebras of quivers of types A4 and D4 show, although it is not a complete derived invariant, as the smallest cospectral pair of trees shows. On Hochschild cohomology we prove that σA is the identity: the left and right actions of (A) on the bimodule A coincide for every finite-dimensional A. This yields a short conceptual proof that the Nakayama automorphism of a Frobenius algebra acts trivially on Hochschild cohomology, recovering a recent theorem of Suárez-Álvarez. Finally we extend the construction to smooth and proper differential graded algebras, hence to perfect derived categories of smooth projective varieties; the enrichment degenerates precisely on Calabi--Yau categories, and on n it is governed by the Coxeter polynomial (x+(-1)n)n+1 of the Beilinson algebra. Happel's trace formula and de la Peña's cyclotomicity theorem for fractionally Calabi--Yau algebras become statements internal to the enriched calculus.