English

Simple proofs of uniformization theorems

Complex Variables 2007-05-23 v1

Abstract

The measurable Riemann mapping theorem proved by Morrey and in some particular cases by Ahlfors, Lavrentiev and Vekua, says that any measurable almost complex structure on \rd\rd (S2S^2) with bounded dilatation is integrable: there is a quasiconformal homeomorphism of \rd\rd (S2S^2) onto \cc\cc (\bc\bc) transforming the given almost complex structure to the standard one. We give an elementary proof of this theorem that is done as follows. Firstly we prove its double-periodic version: each \ci\ci almost complex structures on the two-torus can be transformed by a diffeomorphism to the standard complex structure on appropriate complex torus. The proof is based on the homotopy method for the Beltrami equation on \td\td with parameter. (As a by-product, we present a simple proof of the Poincar\'e-K\"obe theorem saying that each simply-connected Riemann surface is conformally equivalent to either \ccˉ\bar{\cc}, or \cc\cc, or the unit disc.) Afterwards the general case is treated by \ci\ci double-periodic approximation and simple normality arguments (involving Gr\"otzsch inequality) following the classical scheme.

Keywords

Cite

@article{arxiv.math/0510071,
  title  = {Simple proofs of uniformization theorems},
  author = {Alexey Glutsyuk},
  journal= {arXiv preprint arXiv:math/0510071},
  year   = {2007}
}

Comments

19 pages, 2 figures