Complete Surfaces with Ends of Non Positive Curvature

· 2014 · math.DG · arXiv 1405.0851

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abstract

In this paper we extend Efimov's Theorem by proving that any complete surface in $\mathbb{R}^3$ with Gauss curvature bounded above by a negative constant outside a compact set has finite total curvature, finite area and is properly immersed. Moreover, its ends must be asymptotic to half-lines. We also give a partial solution to Milnor's conjecture by studying isometric immersions in a space form of complete surfaces which satisfy that outside a compact set they have non positive Gauss curvature and the square of a principal curvature function is bounded from below by a positive constant.

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Elliptic special Weingarten surfaces of minimal type in $\mathbb{R}^3$ of finite total curvature

math.DG · 2019-07-22 · unverdicted · novelty 7.0

Elliptic special Weingarten surfaces of minimal type with finite total curvature satisfy an extended Jorge-Meeks formula; planes are the only ones with total curvature below 4π, and two-ended embedded surfaces are rotationally symmetric special catenoids.

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Elliptic special Weingarten surfaces of minimal type in $\mathbb{R}^3$ of finite total curvature math.DG · 2019-07-22 · unverdicted · none · ref 21 · internal anchor
Elliptic special Weingarten surfaces of minimal type with finite total curvature satisfy an extended Jorge-Meeks formula; planes are the only ones with total curvature below 4π, and two-ended embedded surfaces are rotationally symmetric special catenoids.

Complete Surfaces with Ends of Non Positive Curvature

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