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A linear Weingarten surface in Euclidean space ${\bf R}^3$ is a surface whose mean curvature $H$ and Gaussian curvature $K$ satisfy a relation of the form $aH+bK=c$, where $a,b,c\in {\bf R}$. Such a surface is said to be hyperbolic when…

Differential Geometry · Mathematics 2007-06-13 Rafael Lopez

A surface in hyperbolic space $\h^3$ invariant by a group of parabolic isometries is called a parabolic surface. In this paper we investigate parabolic surfaces of $\h^3$ that satisfy a linear Weingarten relation of the form…

Differential Geometry · Mathematics 2008-09-24 Rafael López

We demonstrate that every non-tubular channel linear Weingarten surface in Euclidean space is a surface of revolution, hence parallel to a catenoid or a rotational surface of non-zero constant Gauss curvature. We provide explicit…

Differential Geometry · Mathematics 2015-07-14 U. Hertrich-Jeromin , K. Mundilova , E. -H. Tjaden

The aim of this paper is to present a complete description of all rotational linear Weingarten surface into the Euclidean sphere S3. These surfaces are characterized by a linear relation aH+bK=c, where H and K stand for their mean and…

Differential Geometry · Mathematics 2011-03-07 Abdênago Barros , Juscelino Silva , Paulo Sousa

In this paper, we study the rotational surfaces in the isotropic 3-space I^3. satisfying Weingarten conditions in terms of the relative curvature K (analogue of the Gaussian curvature) and the isotropic mean curvature H. In particular, we…

Differential Geometry · Mathematics 2016-04-05 Alper Osman Ogrenmis

We introduce a new class of surfaces in Euclidean $3$-space, called surfaces of osculating circles, using the concept of osculating circle of a regular curve. These surfaces contain a uniparametric family of planar lines of curvature. In…

Differential Geometry · Mathematics 2021-12-08 Rafael López , Cetin Camci , Ali Ucum , Kazim Ilarslan

In this paper we study surfaces in Euclidean 3-space foliated by pieces of circles and that satisfy a Weingarten condition of type $a H+b K=c$, where $a,b$ and $c$ are constant and $H$ and $K$ denote the mean curvature and the Gauss…

Differential Geometry · Mathematics 2007-05-23 Rafael López

We study parabolic linear Weingarten surfaces in hyperbolic space $\rlopezh^3$. In particular, we classify two family of parabolic surfaces: surfaces with constant Gaussian curvature and surfaces that satisfy the relation…

Differential Geometry · Mathematics 2007-05-23 Rafael López

We derive basic differential geometric formulae for surfaces in hyperbolic space represented as envelopes of horospheres. The dual notion of parallel hypersurfaces is also studied. The representation is applied to prove existence and…

Differential Geometry · Mathematics 2025-07-01 Charles L. Epstein

The Weingarten relations satisfied by rotationally symmetric surfaces in Euclidean 3-space E3 are considered from three points of view: restrictions on the slope of the relation at umbilic points, the action of SL2(R) as fractional linear…

Differential Geometry · Mathematics 2024-12-05 Brendan Guilfoyle , Morgan Robson

We investigate some characteristic properties of specific Weingarten surfaces in the three-dimensional Euclidean space using the nets of the lines of curvature resp. the asymptotic lines on both central surfaces of them.

Differential Geometry · Mathematics 2015-11-25 Stylianos Stamatakis

In this article we fully classify regular tubular surfaces in Euclidean, Lorentzian and hyperbolic 3-spaces whose Gaussian and mean curvatures $K$ and $H$ verify a polynomial relation. More precisely, we determine the set $S(Q)$ of all…

Differential Geometry · Mathematics 2023-03-08 Alexandre Paiva Barreto , Fernando Gasparotto

The study of quadric surfaces of revolution is a cornerstone of classical Euclidean geometry, but its extension to the three-dimensional sphere $\mathbb{S}^3$ has not been sufficiently explored. This article addresses this important gap by…

Differential Geometry · Mathematics 2026-02-26 Ildefonso Castro , Daniel López-López

We give a classification of rotational cmc surfaces in non-Euclidean space forms in terms of explicit parametrizations using Jacobi elliptic functions. Our method hinges on a Lie sphere geometric description of rotational linear Weingarten…

Differential Geometry · Mathematics 2023-05-26 Denis Polly

Weingarten surfaces are those whose principal curvatures satisfy a functional relation, whose set of solutions is called the curvature diagram or the W-diagram of the surface. Making use of the notion of geometric linear momentum of a plane…

Differential Geometry · Mathematics 2022-01-03 Paula Carretero , Ildefonso Castro

In this paper, we deal with the linear Weingarten factorable surfaces in the isotropic 3-space I^{3} satisfying the relation aK+bH=c, where K is the relative curvature and H the isotropic mean curvature, a,b,cR. We obtain a complete…

Differential Geometry · Mathematics 2017-06-05 Muhittin Evren Aydin , Alper Osman Ogrenmis

We define general rotational surfaces of elliptic and hyperbolic type in the pseudo-Euclidean 4-space with neutral metric which are analogous to the general rotational surfaces of C. Moore in the Euclidean 4-space. We study Lorentz general…

Differential Geometry · Mathematics 2018-10-02 Yana Aleksieva , Velichka Milousheva , Nurettin Cenk Turgay

We define discrete flat surfaces in hyperbolic 3-space from the perspective of discrete integrable systems and prove properties that justify the definition. We show how these surfaces correspond to previously defined discrete constant mean…

Differential Geometry · Mathematics 2017-09-22 Tim Hoffmann , Wayne Rossman , Takeshi Sasaki , Masaaki Yoshida

In this work, we study spacelike surfaces in Minkowski space $E_1^3$ foliated by pieces of circles and that satisfy a linear Weingarten condition of type $a H+b K=c$, where $a,b$ and $c$ are constant and $H$ and $K$ denote the mean…

Differential Geometry · Mathematics 2009-09-15 Ozgur Boyacioglu Kalkan , Rafael López , Derya Saglam

In \cite{WeiWu22-3} (J.Geom.Anal.32, 199(2022)), we classified HCMU surfaces in 3-dimensional Euclidean space as Weingarten surfaces by holomorphic functions. In this paper, using a totally different method from \cite{WeiWu22-3}, we will…

Differential Geometry · Mathematics 2022-08-30 Zhiqiang Wei , Yingyi Wu
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