Book contents
- Frontmatter
- Contents
- INTRODUCTION
- Approximate subgroups and super-strong approximation
- Width questions for finite simple groups
- Profinite properties of discrete groups
- GL(n, Z), Out(Fn) and everything in between: automorphism groups of RAAGs
- Permutation groups and transformation semigroups: results and problems
- New progress on factorized groups and subgroup permutability
- A survey on the normalizer problem for integral group rings
- A survey on Clifford-Fischer theory
- A generalisation on the solvability of finite groups with three class sizes for normal subgroups
- Automorphism groups of non-orientable Riemann surfaces
- What are the C2-groups?
- Resurrecting Wells’ exact sequence and Buckley's group action
- Recent work on Beauville surfaces, structures and groups
- Something for nothing: some consequences of the solution of the Tarski problems
- The groups of projectivities in finite planes
- On the relation gap and relation lifting problem
- Some results on products of finite subsets in groups
- Formal languages and group theory
- On the Castelnuovo-Mumford regularity of the cohomology of fusion systems and of the Hochschild cohomology of block algebras
- Recent advances on torsion subgroups of integral group rings
- On finite groups with small prime spectrum
- Solvability criteria for finite loops and groups
- The rational subset membership problem for groups: a survey
- A survey of Milnor laws
- Capable p-groups
- On the normal structure of a finite group with restrictions on the maximal subgroups
- Certain monomial characters and their normal constituents
- Recognition of finite quasi-simple groups by the degrees of their irreducible representations
- Generalized Baumslag-Solitar groups: a survey of recent progress
- Zeta functions of groups and rings – recent developments
Recent work on Beauville surfaces, structures and groups
Published online by Cambridge University Press: 05 September 2015
- Frontmatter
- Contents
- INTRODUCTION
- Approximate subgroups and super-strong approximation
- Width questions for finite simple groups
- Profinite properties of discrete groups
- GL(n, Z), Out(Fn) and everything in between: automorphism groups of RAAGs
- Permutation groups and transformation semigroups: results and problems
- New progress on factorized groups and subgroup permutability
- A survey on the normalizer problem for integral group rings
- A survey on Clifford-Fischer theory
- A generalisation on the solvability of finite groups with three class sizes for normal subgroups
- Automorphism groups of non-orientable Riemann surfaces
- What are the C2-groups?
- Resurrecting Wells’ exact sequence and Buckley's group action
- Recent work on Beauville surfaces, structures and groups
- Something for nothing: some consequences of the solution of the Tarski problems
- The groups of projectivities in finite planes
- On the relation gap and relation lifting problem
- Some results on products of finite subsets in groups
- Formal languages and group theory
- On the Castelnuovo-Mumford regularity of the cohomology of fusion systems and of the Hochschild cohomology of block algebras
- Recent advances on torsion subgroups of integral group rings
- On finite groups with small prime spectrum
- Solvability criteria for finite loops and groups
- The rational subset membership problem for groups: a survey
- A survey of Milnor laws
- Capable p-groups
- On the normal structure of a finite group with restrictions on the maximal subgroups
- Certain monomial characters and their normal constituents
- Recognition of finite quasi-simple groups by the degrees of their irreducible representations
- Generalized Baumslag-Solitar groups: a survey of recent progress
- Zeta functions of groups and rings – recent developments
Summary
Abstract
Beauville surfaces are a class of complex surfaces defined by letting a finite group G act on product of Riemann surfaces. These surfaces possess many attractive geometric properties several of which are dictated by properties of the group G. In this survey we discuss the groups that may be used in this way. En route we discuss several open problems, questions and conjectures.
Introduction
Roughly speaking (precise definitions will be given in the next section), a Beauville surface is a complex surface S defined by taking a pair of complex curves, i.e., Riemann surfaces, C1 and C2 and letting a finite group G act freely on their product to define S as a quotient (C1×C2)/G. These surfaces have a wide variety of attractive geometric properties: they are surfaces of general type; their automorphism groups [50] and fundamental groups [20] are relatively easy to compute (being closely related to G — see Section 7.2 and 7.3); these surfaces are rigid surfaces in the sense of admitting no nontrivial deformations [10] and thus correspond to isolated points in the moduli space of surfaces of general type [37].
Much of this good behaviour stems from the fact that the surface (C1× C2)/G is uniquely determined by a particular pair of generating sets of G known as a ‘Beauville structure’. This converts the study of Beauville surfaces to the study of groups with Beauville structures, i.e., Beauville groups.
Beauville surfaces were first defined by Catanese in [20] as a generalisation of an earlier example of Beauville [14, Exercise X.13(4)] (native English speakers may find the English translation [15] somewhat easier to read and get hold of) in which C = C’ and the curves are both the Fermat curve defined by the equation X5 +Y5 +Z5 = 0 being acted on by the group (Z/5Z)×(Z/5Z) (this choice of group may seem somewhat odd at first, but the reason will become clear later). Bauer, Catanese and Grunewald went on to use these surfaces to construct examples of smooth regular surfaces with vanishing geometric genus [11]. Early motivation came from the consideration of the ‘Friedman-Morgan speculation’ — a technical conjecture concerning when two algebraic surfaces are diffeomorphic which Beauville surfaces provide counterexamples to.
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- Groups St Andrews 2013 , pp. 225 - 241Publisher: Cambridge University PressPrint publication year: 2015
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