Recent progress on the Tate conjecture

Totaro, Burt

doi:10.1090/bull/1588

Cited by 18 publications

(14 citation statements)

References 37 publications

(31 reference statements)

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“…Moreover, by [Shi74,§2], the Picard rank of a uniruled K3 surface over an algebraically closed field is equal to its second Betti number, which is equal to 22, i.e., the K3 surface is supersingular (in the sense of Shioda). Since the Tate conjecture for K3 surfaces is by now fully established, Shioda's notion of supersingular coincides with the others (height of the formal Brauer group [Art74] or in terms of the Newton polygon on cohomology), see [Tot17]. We note that supersingular K3 surfaces form 9-dimensional families [Art74] and are thus very special, even in positive characteristic.…”

Section: Curves K3 Surfaces and Modulimentioning

confidence: 76%

Curves on K3 surfaces

Chen¹,

Gounelas²,

Liedtke³

2019

Preprint

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We complete the remaining cases of the conjecture predicting existence of infinitely many rational curves on K3 surfaces in characteristic zero, and improve the proofs of the previously known cases. To achieve this, we introduce two new techniques in the deformation theory of curves on K3 surfaces.(1) Regeneration, a process opposite to specialisation, which preserves the geometric genus and does not require the class of the curve to extend. (2) The marked point trick, which allows a controlled degeneration of rational curves to integral ones in certain situations. Combining the two proves existence of integral curves of unbounded degree of any geometric genus g for any projective K3 surface in characteristic zero. CONTENTSConjecture 1.1. Let X be a projective K3 surface over an algebraically closed field. Then X contains infinitely many rational curves. This conjecture has been established in many important cases: for very general K3 surfaces in characteristic zero [Che99, CL13], for K3 surfaces with odd Picard rank [LL11] (building on ideas of [BHT11]), for elliptic K3 surfaces and K3 surfaces with infinite automorphism groups [BT00, Tay18], and for some special K3

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Section: Curves K3 Surfaces and Modulimentioning

confidence: 76%

Curves on K3 surfaces

Chen¹,

Gounelas²,

Liedtke³

2019

Preprint

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“…Conjecture T l (X): The cycle class map (1.7) is surjective. This conjecture holds when d ≤ 1, when X is an abelian variety and d ≤ 3, and also when X is a K3-surface; consult Totaro's survey [62]. Besides these cases (and some other cases scattered in the literature), it remains wide open.…”

Section: Celebrated Conjecturesmentioning

confidence: 98%

Noncommutative counterparts of celebrated conjectures

Tabuada¹

2018

Preprint

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“…Much less is known when r > 1. We refer to the surveys [Tot17,Mil07,Tat94,Ram89] for a nice summary of known results. The goal of this short note is to present some examples of abelian varieties X over number fields for which Tate's conjectures hold for algebraic cycles in arbitrary codimension r.…”

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confidence: 99%

A note on Tate's conjectures for abelian varieties

Li,

Zhang

2021

Preprint

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Recent progress on the Tate conjecture

Cited by 18 publications

References 37 publications

Curves on K3 surfaces

Curves on K3 surfaces

Noncommutative counterparts of celebrated conjectures

A note on Tate's conjectures for abelian varieties

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