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1. K-stability and birational models of moduli of quartic K3 surfaces

   https://doi.org/10.1007/s00222-022-01170-5  

   Ascher, Kenneth; DeVleming, Kristin; Liu, Yuchen (May 2023, Inventiones mathematicae)

   Abstract We show that the K-moduli spaces of log Fano pairs $$({\mathbb {P}}^3, cS)$$ ( P 3 , c S ) where S is a quartic surface interpolate between the GIT moduli space of quartic surfaces and the Baily–Borel compactification of moduli of quartic K3 surfaces as c varies in the interval (0, 1). We completely describe the wall crossings of these K-moduli spaces. As the main application, we verify Laza–O’Grady’s prediction on the Hassett–Keel–Looijenga program for quartic K3 surfaces. We also obtain the K-moduli compactification of quartic double solids, and classify all Gorenstein canonical Fano degenerations of $${\mathbb {P}}^3$$ P 3 . 

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

   https://doi.org/10.1017/S1474748021000384  

   ASCHER, KENNETH; DEVLEMING, KRISTIN; LIU, YUCHEN (September 2021, Journal of the Institute of Mathematics of Jussieu)

   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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3. Reductivity of the automorphism group of K-polystable Fano varieties.

   Alper, Jarod; Blum, Harold; Halpern-Leistner, Daniel; Xu, Chenyang (July 2020, Inventiones mathematicae)

   null (Ed.)

   We prove that K-polystable log Fano pairs have reductive automorphism groups. In fact, we deduce this statement by establishing more general results concerning the S-completeness and Θ-reductivity of the moduli of K-semistable log Fano pairs. Assuming the conjecture that K-semistability is an open condition, we prove that the Artin stack parametrizing K-semistable Fano varieties admits a separated good moduli space. 

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4. Level crossings, attractor points and complex multiplication

   https://doi.org/10.1007/JHEP06(2023)164  

   Ahmed, Hamza; Ruehle, Fabian (June 2023, Journal of High Energy Physics)

   A<sc>bstract</sc> We study the complex structure moduli dependence of the scalar Laplacian eigenmodes for one-parameter families of Calabi-Yaun-folds in ℙⁿ⁺¹. It was previously observed that some eigenmodes get lighter while others get heavier as a function of these moduli, which leads to eigenvalue crossing. We identify the cause for this behavior for the torus. We then show that at points in a sublocus of complex structure moduli space where Laplacian eigenmodes cross, the torus has complex multiplication. We speculate that the generalization to arbitrary Calabi-Yau manifolds could be that level crossing is related to rank one attractor points. To test this, we compute the eigenmodes numerically for the quartic K3 and the quintic threefold, and match crossings to CM and attractor points in these varieties. To quantify the error of our numerical methods, we also study the dependence of the numerical spectrum on the quality of the Calabi-Yau metric approximation, the number of points sampled from the Calabi-Yau variety, the truncation of the eigenbasis, and the distance from degeneration points in complex structure moduli space. 

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5. K-stability of cubic fourfolds

   https://doi.org/10.1515/crelle-2022-0002  

   Liu, Yuchen (February 2022, Journal für die reine und angewandte Mathematik (Crelles Journal))

   Abstract We prove that the K-moduli space of cubic fourfolds is identical to their GIT moduli space.More precisely, the K-(semi/poly)stability of cubic fourfolds coincide to the corresponding GIT stabilities, which was studied in detail by Laza. In particular, this implies that all smooth cubic fourfolds admit Kähler–Einstein metrics. Key ingredients are local volume estimates in dimension three due to Liu and Xu, and Ambro–Kawamata’s non-vanishing theorem for Fano fourfolds. 

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