A Tauberian vanishing theorem

ИжУЧАЕтсь кРИтИЧЕск Аь скОРОсть УБыВАНИь Дль РАжлИЧНых МЕтОДОВ сУ ММИРОВАНИь. пРОтОтИпОМ тАкИх РЕж УльтАтОВ ьВльЕтсь сл ЕДУУЩЕЕ УтВЕРжДЕНИЕ, ОтНОсьЩ ЕЕсь к МЕтОДУ сУММИРОВАНИ ь АБЕль: ЕслИ $$a_n = O(n^p ) \Pi pI x \to \infty $$ Дль НЕкОтОРОгОp И $$\sum {a_n e^{ - nx} = O(e^{ - \eta (x)/x} ) \Pi pI x \to + 0,} $$ пРИx→+0, гДЕ ФУНкцИьη УДОВлЕт ВОРьЕт УслОВИУ $$\mathop {\lim \sup }\limits_{x \to + 0} \eta (x) = \infty ,$$ тО кОЁФФИцИЕНтыa _n РАВ Ны НУлУ Дль ВсЕхn. Мы пОкАжыВАЕМ, ЧтО пОД ОБНыИ РЕжУльтАт ИМЕЕ т МЕстО Дль шИРОкОгО клАссА МЕтОДОВ сУММИРОВАНИ ь.     

A vanishing theorem on Kaehler Finsler manifolds

Let M be a connected compact complex manifold endowed with a strongly pseudoconvex complex Finsler metric F. In this paper, we first define the complex horizontal Laplacian □_h and complex vertical Laplacian □_v on the holomorphic tangent bundle T^1,0M of M, and then we obtain a precise relationship among □_h,□_v and the Hodge–Laplace operator on (T^1,0M,,), where , is the induced Hermitian metric on T^1,0M by F. As an application, we prove a vanishing theorem of holomorphic p-forms on M under the condition that F is a Kaehler Finsler metric on M.     

A Nadel vanishing theorem via injectivity theorems

The purpose of this paper is to establish Nadel type vanishing theorems with multiplier ideal sheaves of singular metrics admitting an analytic Zariski decomposition (such as, metrics with minimal singularities and Siu’s metrics). For this purpose, we generalize Kollár’s injectivity theorem to an injectivity theorem for line bundles equipped with singular metrics, by making use of the theory of harmonic integrals. Moreover we give asymptotic cohomology vanishing theorems for high tensor powers of line bundles.     

Barth type vanishing theorem

In this paper we give a vanishing result for cohomology groups of symmetric powers of the co-normal bundle of a non-degenerate smooth subvariety X of projective space, then we use this theorem to give a Barth type vanishing theorem.      

Variation on Artin's vanishing theorem

We give a proof of Artin's vanishing theorem in characteristic zero, based on Deligne's Riemann-Hilbert correspondence.     

A vanishing theorem for differential operators in positive characteristic

Let X be a smooth variety over an algebraically closed field k of characteristic p, and let F: X → X be the Frobenius morphism. We prove that if X is an incidence variety (a partial flag variety in type A _n ) or a smooth quadric (in this case p is supposed to be odd) then Hⁱ( X,End( \sfF_*O_X ) ) = 0 {H^i}\left( {X,\mathcal{E}nd\left( {{\sf{F}_*}{\mathcal{O}_X}} \right)} \right) = 0 for i > 0. Using this vanishing result and the derived localization theorem for crystalline differential operators [3], we show that the Frobenius direct image \sfF_*O_X {\sf{F}_*}{\mathcal{O}_X} is a tilting bundle on these varieties provided that p > h, the Coxeter number of the corresponding group.     

A vanishing theorem for operations on entire cyclic cohomology

We prove the Lie action of Hochschild cohomology on entire cyclic cohomology is trivial. This, in particular, should imply the invariance of entire theory under suitable deformations.