English

On Real and Pseudo-Real Rational Maps

Dynamical Systems 2021-07-08 v4

Abstract

The moduli space Md{\rm M}_{d}, of complex rational maps of degree d2d \geq 2, is a connected complex orbifold which carries a natural real structure, coming from usual complex conjugation. Its real points are the classes of rational maps admitting antiholomorphic automorphisms. The locus of the real points Md(R){\rm M}_{d}({\mathbb R}) decomposes as a disjoint union of the loci MdR{\rm M}_{d}^{\mathbb R}, consisting of the real rational maps, and Pd{\mathcal P}_{d}, consisting of the pseudo-real ones. We obtain that, both MdR{\rm M}_{d}^{\mathbb R} and Md(R){\rm M}_{d}({\mathbb R}), are connected and that Pd{\mathcal P}_{d} is disconnected. We also observe that the group of holomorphic automorphisms of a pseudo-real rational map is either trivial or a cyclic group. For every n1n \geq 1, we construct pseudo-real rational maps whose group of holomorphic automorphisms is cyclic of order nn. As the field of moduli of a pseudo-real rational map is contained in R{\mathbb R}, these maps provide examples of rational maps which are not definable over their field of moduli. It seems that these are the only explicit examples in the literature (Silverman) of rational maps which cannot be defined over their field of moduli. We provide explicit examples of real rational maps which cannot be defined over their field of moduli. Finally, we also observe that every real rational map, which admits a model over the algebraic numbers, can be defined over the real algebraic numbers.

Keywords

Cite

@article{arxiv.1502.05306,
  title  = {On Real and Pseudo-Real Rational Maps},
  author = {Ruben A. Hidalgo and Saul Quispe},
  journal= {arXiv preprint arXiv:1502.05306},
  year   = {2021}
}
R2 v1 2026-06-22T08:32:31.883Z