English

Icosahedron, exceptional singularities and modular forms

Number Theory 2015-11-18 v1 Algebraic Geometry Representation Theory

Abstract

We find that the equation of E8E_8-singularity possesses two distinct symmetry groups and modular parametrizations. One is the classical icosahedral equation with icosahedral symmetry, the associated modular forms are theta constants of order five. The other is given by the group PSL(2,13)\text{PSL}(2, 13), the associated modular forms are theta constants of order 1313. As a consequence, we show that E8E_8 is not uniquely determined by the icosahedron. This solves a problem of Brieskorn in his ICM 1970 talk on the mysterious relation between exotic spheres, the icosahedron and E8E_8. Simultaneously, it gives a counterexample to Arnold's A,D,EA, D, E problem, and this also solves the other related problem on the relation between simple Lie algebras and Platonic solids. Moreover, we give modular parametrizations for the exceptional singularities Q18Q_{18}, E20E_{20} and x7+x2y3+z2=0x^7+x^2 y^3+z^2=0 by theta constants of order 1313, the second singularity provides a new analytic construction of solutions for the Fermat-Catalan conjecture and gives an answer to a problem dating back to the works of Klein.

Keywords

Cite

@article{arxiv.1511.05278,
  title  = {Icosahedron, exceptional singularities and modular forms},
  author = {Lei Yang},
  journal= {arXiv preprint arXiv:1511.05278},
  year   = {2015}
}

Comments

41 pages

R2 v1 2026-06-22T11:47:05.509Z