English

Model pseudoconvex domains and bumping

Complex Variables 2015-08-28 v2

Abstract

The Levi geometry at weakly pseudoconvex boundary points of domains in C^n, n \geq 3, is sufficiently complicated that there are no universal model domains with which to compare a general domain. Good models may be constructed by bumping outward a pseudoconvex, finite-type \Omega \subset C^3 in such a way that: i) pseudoconvexity is preserved, ii) the (locally) larger domain has a simpler defining function, and iii) the lowest possible orders of contact of the bumped domain with \bdy\Omega, at the site of the bumping, are realised. When \Omega \subset C^n, n\geq 3, it is, in general, hard to meet the last two requirements. Such well-controlled bumping is possible when \Omega is h-extendible/semiregular. We examine a family of domains in C^3 that is strictly larger than the family of h-extendible/semiregular domains and construct explicit models for these domains by bumping.

Keywords

Cite

@article{arxiv.1010.4451,
  title  = {Model pseudoconvex domains and bumping},
  author = {Gautam Bharali},
  journal= {arXiv preprint arXiv:1010.4451},
  year   = {2015}
}

Comments

28 pages; typos corrected; Remarks 2.6 & 2.7 added; clearer proof of Prop. 4.2 given; to appear in IMRN

R2 v1 2026-06-21T16:32:10.209Z