Gromov-Witten theory of quotients of Fermat Calabi-Yau varieties / Hiroshi Iritani, Todor Milanov, Yongbin Ruan, Yefeng Shen.
| Author/creator | Iritani, Hiroshi, 1979- |
| Other author | Milanov, Todor, 1976- |
| Other author | Ruan, Yongbin, 1963- |
| Other author | Shen, Yefeng, 1984- |
| Format | Electronic |
| Publication Info | Providence, RI : American Mathematical Society, [2021] |
| Description | pages cm. |
| Supplemental Content | Full text available from Memoirs of the American Mathematical Society |
| Subjects |
| Series | Memoirs of the American Mathematical Society, 0065-9266 ; number 1310 |
| Contents | Global CY-B-model and quasi-modular forms -- Global Landau-Ginzburg B-model at genus zero -- Opposite subspaces -- Quantization and Fock bundle -- Mirror symmetry for orbifold Fermat CY hypersurfaces -- Mirror symmetry for Fermat CY singularities. |
| Abstract | "We construct a global B-model for any quasi-homogeneous polynomial f that has properties similar to the properties of the physic's B-model on a Calabi-Yau manifold. The main ingredients in our construction are K. Saito's theory of primitive forms and Givental's higher genus reconstruction. More precisely, we consider the moduli space M[unfilled bullet]mar of the so-called marginal deformations of f. For each point [sigma] [is an element of] M[unfilled bullet]mar we introduce the notion of an opposite subspace in the twisted de Rham cohomology of the corresponding singularity f[sigma] and prove that opposite subspaces are in one-to-one correspondence with the splittings of the Hodge structure in the vanishing cohomology of f[sigma]. Therefore, according to M. Saito, an opposite subspace gives rise to a semi-simple Frobenius structure on the space of miniversal deformations of f[sigma]. Using Givental's higher genus reconstruction we define a total ancestor potential A[sigma](h,q) whose properties can be described quite elegantly in terms of the properties of the corresponding opposite subspace. For example, if the opposite subspace corresponds to the splitting of the Hodge structure given by complex conjugation, then the total ancestor potential is monodromy invariant and it satisfies the BCOV holomorphic anomaly equations. The coefficients of the total ancestor potential could be viewed as quasi-modular forms on M[unfilled bullet]mar in a certain generalized sense. As an application of our construction, we consider the case of a Fermat polynomial W that defines a Calabi-Yau hypersurface XW in a weighted-projective space. We have constructed two opposite subspaces and proved that the corresponding total ancestor potentials can be identified with respectively the total ancestor potential of the orbifold quotient XW/G̃W and the total ancestor potential of FJRW invariants corresponding to (W,GW). Here GW is the maximal group of diagonal symmetries of W and GW is a quotient of GW by the subgroup of those elements that act trivially on XW . In particular, our result establishes the so-called Landau-Ginzburg/Calabi-Yau correspondence for the pair (W,GW)"-- Provided by publisher. |
| General note | "January 2021, volume 269, number 1310 (first of 7 numbers)." |
| Bibliography note | Includes bibliographical references. |
| Access restriction | Available only to authorized users. |
| Technical details | Mode of access: World Wide Web |
| Genre/form | Electronic books. |
| LCCN | 2021016989 |
| ISBN | 9781470443634 (paperback) |
| ISBN | (pdf) |
Availability
| Library | Location | Call Number | Status | Item Actions |
|---|---|---|---|---|
| Electronic Resources | Access Content Online | ✔ Available |