On the Betti numbers of compact holomorphic symplectic orbifolds of dimension four

Fu, Lie; Menet, Grégoire

doi:10.1007/s00209-020-02682-7

Cited by 6 publications

(8 citation statements)

References 45 publications

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“…The proof is exactly the same as in Section 2, so we only indicate the key ingredients. We follow the paper by Fu-Menet [7] and the notation therein.…”

Section: Orbifold Examplesmentioning

confidence: 99%

“…Using these ingredients and repeating the proof in Section 2, we obtain Theorem 1.1 for primitively irreducible symplectic orbifolds in dimension 4. We apply it to examine the examples listed in [7,Sec. 5].…”

Section: Orbifold Examplesmentioning

confidence: 99%

“…Example 3.2. Let M ′ be the irreducible symplectic orbifold of dimension 4 with second Betti number b 2 (M ′ ) = 16, also known as a Nikulin orbifold (see [7,Sec. 5.11] and [3]).…”

Section: Orbifold Examplesmentioning

confidence: 99%

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Second Chern class and Fujiki constants of hyperkähler manifolds

Thorsten¹,

Song²

2022

Preprint

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We study characteristic classes on hyperkähler manifolds with a view towards the Verbitsky component. The case of the second Chern class leads to a conditional upper bound on the second Betti number in terms of the Riemann-Roch polynomial, which is also valid for singular examples. We discuss the general structure of characteristic classes and the Riemann-Roch polynomial on hyperkähler manifolds using among other things Rozansky-Witten theory.

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“…The proof is exactly the same as in Section 2, so we only indicate the key ingredients. We follow the paper by Fu-Menet [7] and the notation therein.…”

Section: Orbifold Examplesmentioning

confidence: 99%

Section: Orbifold Examplesmentioning

confidence: 99%

See 1 more Smart Citation

Second Chern class and Fujiki constants of hyperkähler manifolds

Thorsten¹,

Song²

2022

Preprint

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“…The notion of primitive symplectic variety appears in several papers and the definition is not always equivalent to Definition 1.3. An important example of this is given by the notion of primitive symplectic orbifold that appears in [12], which is more restrictive than that of primitive symplectic variety: following Definition 1.3, a primitive symplectic orbifold, as defined in [12], is an orbifold that is a primitive symplectic variety with terminal singularities.…”

Section: Introduction and Notationmentioning

confidence: 99%

Triple Covers of K3 Surfaces

Garbagnati¹,

Penegini

2022

Nagoya Math. J.

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We study triple covers of K3 surfaces, following Miranda (1985, American Journal of Mathematics 107, 1123–1158). We relate the geometry of the covering surfaces with the properties of both the branch locus and the Tschirnhausen vector bundle. In particular, we classify Galois triple covers computing numerical invariants of the covering surface and of its minimal model. We provide examples of non-Galois triple covers, both in the case in which the Tschirnhausen bundle splits into the sum of two line bundles and in the case in which it is an indecomposable rank 2 vector bundle. We provide a criterion to construct rank 2 vector bundles on a K3 surface S which determine a non-Galois triple cover of S. The examples presented are in any admissible Kodaira dimension, and in particular, we provide the constructions of irregular covers of K3 surfaces and of surfaces with geometrical genus equal to 2 whose transcendental Hodge structure splits in the sum of two Hodge structures of K3 type.

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“…An orbifold Y is said irreducible holomorphic symplectic if Y \ Sing(Y ) is simply connected and admits a unique, up to a scalar multiple, non-degenerate holomorphic 2-form. Such manifolds are intensively studied [BL,Me1,MaT,FuMe] because they can be seen as a natural generalization of smooth irreducible hyper-Kähler manifolds. There are only a few known families of these orbifolds, see [Me2,Pe].…”

Section: Introductionmentioning

confidence: 99%

Projective models of Nikulin orbifolds

Camere¹,

Garbagnati²,

Kapustka³

et al. 2021

Preprint

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We study projective fourfolds of K3 [2] -type with a symplectic involution and the deformations of their quotients, called orbifolds of Nikulin types; they are IHS orbifolds. We compute the Riemann-Roch formula for Weil divisors on such orbifolds and describe the first complete family of orbifolds of Nikulin type with a polarization of degree 2 as double covers of special complete intersections (3, 4) in P 6 .

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On the Betti numbers of compact holomorphic symplectic orbifolds of dimension four

Cited by 6 publications

References 45 publications

Second Chern class and Fujiki constants of hyperkähler manifolds

Second Chern class and Fujiki constants of hyperkähler manifolds

Triple Covers of K3 Surfaces

Projective models of Nikulin orbifolds

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