Search

MiS Preprint Repository

Delve into the future of research at MiS with our preprint repository. Our scientists are making groundbreaking discoveries and sharing their latest findings before they are published. Explore repository to stay up-to-date on the newest developments and breakthroughs.

MiS Preprint
100/2018

A numerical transcendental method in algebraic geometry

Pierre Lairez and Emre Sertöz

Abstract

Based on high precision computation of periods and lattice reduction techniques, we compute the Picard group of smooth surfaces. We also study the lattice reduction technique that is employed in order to quantify the possibility of numerical error in terms of an intrinsic measure of complexity of each surface. The method applies more generally to the computation of the lattice generated by Hodge cycles of middle dimension on smooth projective hypersurfaces. We demonstrate the method by a systematic study of thousands of quartic surfaces (K3s) defined by sparse polynomials. As an application, we count the number of rational curves of a given degree lying on each surface. For quartic surfaces we also compute the endomorphism ring of their transcendental lattice.

Received:
28.11.2018
Published:
29.11.2018
MSC Codes:
32J25, 14Q10, 14C22, 32G20
Keywords:
Transcendental methods, Hodge theory, algebraic geometry, Picard groups, Period matrices, Variation of Hodge structure

Related publications

inJournal
2019 Journal Open Access
Pierre Lairez and Emre Can Sertöz

A numerical transcendental method in algebraic geometry : computation of Picard groups and related invariants

In: SIAM journal on applied algebra and geometry, 3 (2019) 4, pp. 559-584