Singularities on the 2-Dimensional Moduli Spaces of Stable Sheaves on K3 Surfaces

AbstractIn the Simpson moduli space M of semi-stable sheaves with Hilbert polynomial dm − 1 on a projective plane we study the closed subvariety M' of sheaves that are not locally free on their support. We show that for d ≥4 , it is a singular subvariety of codimension 2 in M. The blow up of M along M' is interpreted as a (partial) modification of M \ M' by line bundles (on support).

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K-MODULI OF CURVES ON A QUADRIC SURFACE AND K3 SURFACES

Journal of the Institute of Mathematics of Jussieu ◽

10.1017/s1474748021000384 ◽

2021 ◽

pp. 1-41

Author(s):

KENNETH ASCHER ◽

KRISTIN DEVLEMING ◽

YUCHEN LIU

Keyword(s):

Complete Intersection ◽

Moduli Space ◽

Moduli Spaces ◽

K3 Surfaces ◽

Moduli Of Curves ◽

Quadric Surface ◽

Intersection Curves

Abstract We show that the K-moduli spaces of log Fano pairs $\left(\mathbb {P}^1\times \mathbb {P}^1, cC\right)$ , where C is a $(4,4)$ curve and their wall crossings coincide with the VGIT quotients of $(2,4)$ , complete intersection curves in $\mathbb {P}^3$ . This, together with recent results by Laza and O’Grady, implies that these K-moduli spaces form a natural interpolation between the GIT moduli space of $(4,4)$ curves on $\mathbb {P}^1\times \mathbb {P}^1$ and the Baily–Borel compactification of moduli of quartic hyperelliptic K3 surfaces.

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On Some Generalized Rapoport–Zink Spaces

Canadian Journal of Mathematics ◽

10.4153/s0008414x19000269 ◽

2019 ◽

Vol 72 (5) ◽

pp. 1111-1187

Author(s):

Xu Shen

Keyword(s):

Moduli Space ◽

Moduli Spaces ◽

K3 Surfaces ◽

Connected Components ◽

Shimura Varieties ◽

Reductive Groups ◽

Mixed Characteristic ◽

Special Fibers ◽

Type Spaces ◽

Local Invariants

AbstractWe enlarge the class of Rapoport–Zink spaces of Hodge type by modifying the centers of the associated $p$-adic reductive groups. Such obtained Rapoport–Zink spaces are said to be of abelian type. The class of Rapoport–Zink spaces of abelian type is strictly larger than the class of Rapoport–Zink spaces of Hodge type, but the two type spaces are closely related as having isomorphic connected components. The rigid analytic generic fibers of Rapoport–Zink spaces of abelian type can be viewed as moduli spaces of local $G$-shtukas in mixed characteristic in the sense of Scholze.We prove that Shimura varieties of abelian type can be uniformized by the associated Rapoport–Zink spaces of abelian type. We construct and study the Ekedahl–Oort stratifications for the special fibers of Rapoport–Zink spaces of abelian type. As an application, we deduce a Rapoport–Zink type uniformization for the supersingular locus of the moduli space of polarized K3 surfaces in mixed characteristic. Moreover, we show that the Artin invariants of supersingular K3 surfaces are related to some purely local invariants.

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STABLE RANK-2 BUNDLES ON CALABI–YAU MANIFOLDS

International Journal of Mathematics ◽

10.1142/s0129167x03002150 ◽

2003 ◽

Vol 14 (10) ◽

pp. 1097-1120 ◽

Cited By ~ 5

Author(s):

WEI-PING LI ◽

ZHENBO QIN

Keyword(s):

Moduli Space ◽

Moduli Spaces ◽

Double Cover ◽

Stable Rank ◽

Chern Classes ◽

Canonical Divisor ◽

Rank 2 ◽

Stable Sheaves ◽

Rank 2 Bundles ◽

Calabi Yau Manifolds

In this paper, we apply the technique of chamber structures of stability polarizations to construct the full moduli space of rank-2 stable sheaves with certain Chern classes on Calabi–Yau manifolds which are anti-canonical divisor of ℙ1×ℙn or a double cover of ℙ1×ℙn. These moduli spaces are isomorphic to projective spaces. As an application, we compute the holomorphic Casson invariants defined by Donaldson and Thomas.

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The Euler number of certain primitive Calabi–Yau threefolds

Mathematical Proceedings of the Cambridge Philosophical Society ◽

10.1017/s0305004199004004 ◽

2000 ◽

Vol 128 (1) ◽

pp. 79-86

Author(s):

MEI-CHU CHANG ◽

HOIL KIM

Keyword(s):

Moduli Space ◽

Moduli Spaces ◽

Three Dimensional ◽

Building Blocks ◽

K3 Surfaces ◽

Physical Models ◽

Ample Divisor ◽

K3 Surface ◽

Superstring Theory ◽

Two Parameters

Recently Calabi–Yau threefolds have been studied intensively by physicists and mathematicians. They are used as physical models of superstring theory [Y] and they are one of the building blocks in the classification of complex threefolds [KMM]. These are three dimensional analogues of K3 surfaces. However, there is a fundamental difference as is to be expected. For K3 surfaces, the moduli space N of K3 surfaces is irreducible of dimension 20, inside which a countable number of families Ng with g [ges ] 2 of algebraic K3 surfaces of dimension 19 lie as a dense subset. More explicitly, an element in Ng is (S, H), where S is a K3 surface and H is a primitive ample divisor on S with H2 = 2g − 2. For a generic (S, H), Pic (S) is generated by H, so that the rank of the Picard group of S is 1. A generic surface S in N is not algebraic and it has Pic (S) = 0, but dim N = h1(S, TS) = 20 [BPV]. It is quite an interesting problem whether or not the moduli space M of all Calabi–Yau threefolds is irreducible in some sense [R]. A Calabi–Yau threefold is algebraic if and only if it is Kaehler, while every non-algebraic K3 surface is still Kaehler. Inspired by the K3 case, we define Mh,d to be {(X, H)[mid ]H3 = h, c2(X) · H = d}, where H is a primitive ample divisor on a smooth Calabi–Yau threefold X. There are two parameters h, d for algebraic Calabi–Yau threefolds, while there is only one parameter g for algebraic K3 surfaces. (Note that c2(S) = 24 for every K3 surface.) We know that Ng is of dimension 19 for every g and is irreducible but we do not know the dimension of Mh,d and whether or not Mh,d is irreducible. In fact, the dimension of Mh,d = h1(X, TX), where (X, H) ∈ Mh,d. Furthermore, it is well known that χ(X) = 2 (rank of Pic (X) − h1(X, TX)), where χ(X) is the topological Euler characteristic of X. Calabi–Yau threefolds with Picard rank one are primitive [G] and play an important role in the moduli spaces of all Calabi–Yau threefolds. In this paper we give a bound on c3 of Calabi–Yau threefolds with Picard rank 1.

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K3 Surfaces

10.1093/acprof:oso/9780199296866.003.0010 ◽

2007 ◽

Author(s):

D. Huybrechts

Keyword(s):

Moduli Spaces ◽

Special Class ◽

K3 Surfaces ◽

Derived Categories ◽

K3 Surface ◽

Hodge Structures ◽

Surface Theory ◽

Torelli Theorem ◽

Stable Sheaves ◽

Moduli Theory

After abelian varieties, K3 surfaces are the second most interesting special class of varieties. These have a rich internal geometry and a highly interesting moduli theory. Paralleling the famous Torelli theorem, results from Mukai and Orlov show that two K3 surfaces have equivalent derived categories precisely when their cohomologies are isomorphic weighing two Hodge structures. Their techniques also give an almost complete description of the cohomological action of the group of autoequivalences of the derived category of a K3 surface. The basic definitions and fundamental facts from K3 surface theory are recalled. As moduli spaces of stable sheaves on K3 surfaces are crucial for the argument, a brief outline of their theory is presented.

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T-dual solutions of the Hull–Strominger system on non-Kähler threefolds

Journal für die reine und angewandte Mathematik (Crelles Journal) ◽

10.1515/crelle-2019-0013 ◽

2020 ◽

Vol 2020 (766) ◽

pp. 137-150

Author(s):

Mario Garcia-Fernandez

Keyword(s):

Moduli Spaces ◽

Tangent Bundle ◽

Analytical Methods ◽

Existence Of Solutions ◽

K3 Surfaces ◽

Dual Solutions ◽

K3 Surface ◽

Yang Mills ◽

Torus Bundles ◽

Stable Sheaves

AbstractWe construct new examples of solutions of the Hull–Strominger system on non-Kähler torus bundles over K3 surfaces, with the property that the connection {\nabla} on the tangent bundle is Hermite–Yang–Mills. With this ansatz for the connection {\nabla}, we show that the existence of solutions reduces to known results about moduli spaces of slope-stable sheaves on a K3 surface, combined with elementary analytical methods. We apply our construction to find the first examples of T-dual solutions of the Hull–Strominger system on compact non-Kähler manifolds with different topology.

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Comparison of Poisson structures on moduli spaces

Revista Matemática Complutense ◽

10.1007/s13163-021-00418-7 ◽

2021 ◽

Author(s):

Indranil Biswas ◽

Francesco Bottacin ◽

Tomás L. Gómez

Keyword(s):

Moduli Space ◽

Moduli Spaces ◽

Poisson Structures ◽

Projective Curve ◽

Smooth Projective Curve ◽

Algebraic Vector ◽

Pure Dimension ◽

Stable Sheaves ◽

Fixed Rank ◽

Dimension One

AbstractLet X be a complex irreducible smooth projective curve, and let $${{\mathbb {L}}}$$ L be an algebraic line bundle on X with a nonzero section $$\sigma _0$$ σ 0 . Let $${\mathcal {M}}$$ M denote the moduli space of stable Hitchin pairs $$(E,\, \theta )$$ ( E , θ ) , where E is an algebraic vector bundle on X of fixed rank r and degree $$\delta $$ δ , and $$\theta \, \in \, H^0(X,\, {\mathcal {E}nd}(E)\otimes K_X\otimes {{\mathbb {L}}})$$ θ ∈ H 0 ( X , E n d ( E ) ⊗ K X ⊗ L ) . Associating to every stable Hitchin pair its spectral data, an isomorphism of $${\mathcal {M}}$$ M with a moduli space $${\mathcal {P}}$$ P of stable sheaves of pure dimension one on the total space of $$K_X\otimes {{\mathbb {L}}}$$ K X ⊗ L is obtained. Both the moduli spaces $${\mathcal {P}}$$ P and $${\mathcal {M}}$$ M are equipped with algebraic Poisson structures, which are constructed using $$\sigma _0$$ σ 0 . Here we prove that the above isomorphism between $${\mathcal {P}}$$ P and $${\mathcal {M}}$$ M preserves the Poisson structures.

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GENERALIZED CALABI–YAU STRUCTURES, K3 SURFACES, AND B-FIELDS

International Journal of Mathematics ◽

10.1142/s0129167x05002734 ◽

2005 ◽

Vol 16 (01) ◽

pp. 13-36 ◽

Cited By ~ 18

Author(s):

DANIEL HUYBRECHTS

Keyword(s):

Moduli Space ◽

Moduli Spaces ◽

Symplectic Form ◽

Weak Form ◽

K3 Surfaces ◽

Standard Theory ◽

General Notion ◽

Symplectic Structures ◽

Special Cases ◽

Torelli Theorem

Generalized Calabi–Yau structures, a notion recently introduced by Hitchin, are studied in the case of K3 surfaces. We show how they are related to the classical theory of K3 surfaces and to moduli spaces of certain SCFT as studied by Aspinwall and Morrison. It turns out that K3 surfaces and symplectic structures are both special cases of this general notion. The moduli space of generalized Calabi–Yau structures admits a canonical symplectic form with respect to which the moduli space of symplectic structures is Lagrangian. The standard theory of K3 surfaces implies surjectivity of the period map and a weak form of the Global Torelli theorem.

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Zero cycles on the moduli space of curves

Épijournal de Géométrie Algébrique ◽

10.46298/epiga.2020.volume4.5601 ◽

2020 ◽

Vol Volume 4 ◽

Author(s):

Rahul Pandharipande ◽

Johannes Schmitt

Keyword(s):

Moduli Space ◽

Moduli Spaces ◽

Rational Surface ◽

K3 Surfaces ◽

Moduli Of Curves ◽

K3 Surface ◽

Moduli Space Of Curves ◽

Moduli Spaces Of Curves ◽

Open Questions ◽

Witten Theory

While the Chow groups of 0-dimensional cycles on the moduli spaces of Deligne-Mumford stable pointed curves can be very complicated, the span of the 0-dimensional tautological cycles is always of rank 1. The question of whether a given moduli point [C,p_1,...,p_n] determines a tautological 0-cycle is subtle. Our main results address the question for curves on rational and K3 surfaces. If C is a nonsingular curve on a nonsingular rational surface of positive degree with respect to the anticanonical class, we prove [C,p_1,...,p_n] is tautological if the number of markings does not exceed the virtual dimension in Gromov-Witten theory of the moduli space of stable maps. If C is a nonsingular curve on a K3 surface, we prove [C,p_1,...,p_n] is tautological if the number of markings does not exceed the genus of C and every marking is a Beauville-Voisin point. The latter result provides a connection between the rank 1 tautological 0-cycles on the moduli of curves and the rank 1 tautological 0-cycles on K3 surfaces. Several further results related to tautological 0-cycles on the moduli spaces of curves are proven. Many open questions concerning the moduli points of curves on other surfaces (Abelian, Enriques, general type) are discussed. Comment: Published version

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