Stein Domains in Complex Surfaces
Abstract
Let S be a closed connected real surface and f a smooth embedding or immersion of S into a complex surface X. Assuming that the number of complex points of the immersion (counted with algebraic multiplicities) is non-positive we prove that f can be uniformly approximated by an isotopic immersion g whose image g(S) in X has a basis of open Stein neighborhoods which are homotopy equivalent to g(S). We obtain precise results for surfaces in the complex projective plane CP^2 and find an immersed symplectic sphere in CP^2 with a Stein neighborhood. Conversely, the generalized adjunction inequality for embedded oriented real surfaces in complex surfaces shows that the existence of a Stein neighborhood implies non-positivity of the number of complex points.
Cite
@article{arxiv.math/0201097,
title = {Stein Domains in Complex Surfaces},
author = {Franc Forstneric},
journal= {arXiv preprint arXiv:math/0201097},
year = {2007}
}
Comments
Journal of Geometric Analysis, to appear