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A uniform treatment of Grothendieck's localization problem

Part of: General commutative ring theory Local theory Local rings and semilocal rings Topological rings and modules Arithmetic rings and other special rings

Published online by Cambridge University Press:  24 January 2022

Takumi Murayama
Takumi Murayama*
Affiliation:
Department of Mathematics, Princeton University, Fine Hall, Washington Road, Princeton, NJ 08544-1000, USA takumim@math.princeton.edu
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Abstract

Let $f\colon Y \to X$ be a proper flat morphism of locally noetherian schemes. Then the locus in $X$ over which $f$ is smooth is stable under generization. We prove that, under suitable assumptions on the formal fibers of $X$, the same property holds for other local properties of morphisms, even if $f$ is only closed and flat. Our proof of this statement reduces to a purely local question known as Grothendieck's localization problem. To answer Grothendieck's problem, we provide a general framework that gives a uniform treatment of previously known cases of this problem, and also solves this problem in new cases, namely for weak normality, seminormality, $F$-rationality, and the ‘Cohen–Macaulay and $F$-injective’ property. For the weak normality statement, we prove that weak normality always lifts from Cartier divisors. We also solve Grothendieck's localization problem for terminal, canonical, and rational singularities in equal characteristic zero.

Keywords

Grothendieck's localization problemGrothendieck's lifting problemweak local uniformizationP-morphismweak normality

MSC classification

Primary: 14B07: Deformations of singularities
Secondary: 13H10: Special types (Cohen-Macaulay, Gorenstein, Buchsbaum, etc.) 14B25: Local structure of morphisms 13J10: Complete rings, completion 13F45: Seminormal rings 13A35: Characteristic $p$ methods (Frobenius endomorphism) and reduction to characteristic $p$; tight closure
Type
Research Article
Information
Compositio Mathematica , Volume 158 , Issue 1 , January 2022 , pp. 57 - 88
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Copyright
© 2022 The Author(s). The publishing rights in this article are licensed to Foundation Compositio Mathematica under an exclusive licence

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Footnotes

This material is based upon work supported by the National Science Foundation under Grant Nos. DMS-1701622 and DMS-1902616.

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