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Higher Du Bois singularities of hypersurfaces

Seung‐Jo Jung, In‐Kyun Kim, Morihiko Saito, Youngho Yoon

2022Proceedings of the London Mathematical Society19 citationsDOI

Abstract

For a complex algebraic variety X $X$ , we introduce higher p $p$ -Du Bois singularity by imposing canonical isomorphisms between the sheaves of Kähler differential forms Ω X q $\Omega _X^q$ and the shifted graded pieces of the Du Bois complex Ω ̲ X q $\underline{\Omega }_X^q$ for q ⩽ p $q\leqslant p$ . If X $X$ is a reduced hypersurface, we show that higher p $p$ -Du Bois singularity coincides with higher p $p$ -log canonical singularity, generalizing a well-known theorem for p = 0 $p=0$ . The assertion that p $p$ -log canonicity implies p $p$ -Du Bois has been proved by Mustata, Olano, Popa, and Witaszek quite recently as a corollary of two theorems asserting that the sheaves of reflexive differential forms Ω X [ q ] $\Omega _X^{[q]}$ ( q ⩽ p $q\leqslant p$ ) coincide with Ω X q $\Omega _X^q$ and Ω ̲ X q $\underline{\Omega }_X^q$ , respectively, and these are shown by calculating the depth of the latter two sheaves. We construct explicit isomorphisms between Ω X q $\Omega _X^q$ and Ω ̲ X q $\underline{\Omega }_X^q$ applying the acyclicity of a Koszul complex in a certain range. We also improve some non-vanishing assertion shown by them using mixed Hodge modules and the Tjurina subspectrum in the isolated singularity case. This is useful for instance to estimate the lower bound of the maximal root of the reduced Bernstein–Sato polynomial in the case where a quotient singularity is a hypersurface and its singular locus has codimension at most 4.

Topics & Concepts

MathematicsHypersurfaceOmegaSingularityCodimensionQuotientGravitational singularityCombinatoricsPure mathematicsType (biology)Mathematical analysisPhysicsQuantum mechanicsEcologyBiologyAlgebraic Geometry and Number TheoryNonlinear Waves and SolitonsGeometry and complex manifolds