The fundamental theorem for hypersurfaces in Heisenberg groups

Chiu, Hung-Lin; Lai, Sin-Hua

doi:10.1007/s00526-015-0818-1

Cited by 20 publications

(21 citation statements)

References 10 publications

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“…In this section, we give a brief review of Cartan's method of moving frame and Calculus on Lie groups. For the details, we refer the reader to [5]. Let (X,G) be a Klein geometry.…”

Section: Cartan's Methods Of Moving Framementioning

confidence: 99%

“…The contact bundle is ξ = kerΘ. We refer the reader to [2,3,5] for the details about the Heisenberg groups, and to [6,11,12,15,16] for pseudohermitian geometry.…”

Section: The Heisenberg Groupsmentioning

confidence: 99%

“…where R= A −B B A ∈SO(2n). In [5], we showed that each symmetry Φ∈ PSH(n) has the unique decomposition Φ = L p •Φ R , for some p ∈ H n and R ∈ SO(2n). Since the action of PSH(n) on H n is transitive, the associated geometry is a kind of Klein geometry.…”

Section: The Heisenberg Groupsmentioning

confidence: 99%

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The Fundamental and Rigidity Theorems for Pseudohermitian Submanifolds in the Heisenberg Groups

Chiu¹

2021

JMS

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“…In this section, we give a brief review of Cartan's method of moving frame and Calculus on Lie groups. For the details, we refer the reader to [5]. Let (X,G) be a Klein geometry.…”

Section: Cartan's Methods Of Moving Framementioning

confidence: 99%

“…The contact bundle is ξ = kerΘ. We refer the reader to [2,3,5] for the details about the Heisenberg groups, and to [6,11,12,15,16] for pseudohermitian geometry.…”

Section: The Heisenberg Groupsmentioning

confidence: 99%

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The Fundamental and Rigidity Theorems for Pseudohermitian Submanifolds in the Heisenberg Groups

Chiu¹

2021

JMS

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“…As a flat pseudohermitian manifold, the Heisenberg group plays an important role in pseudohermitian geometry. We refer the reader to [2] and [12] for the details about the Heisenberg group, and to [13], [19], [20] and [30] for pseudohermitian geometry. Denote by H n the Heisenberg group, which is the space R 2n+1 with coordinates (x β , y β , t) as a set.…”

Section: Appendix: Some Basic Materials In Pseudohermitian Geometrymentioning

confidence: 99%

Positive mass theorem and the CR Yamabe equation on 5-dimensional contact spin manifolds

Cheng¹,

Chiu²

2021

Preprint

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We consider the CR Yamabe equation with critical Sobolev exponent on a closed contact manifold M of dimension 2n + 1. The problem of finding solutions with minimum energy has been resolved for all dimensions except dimension 5 (n = 2). In this paper we prove the existence of minimum energy solutions in the 5-dimensional case when M is spin. The proof is based on a positive mass theorem built up through a spinorial approach.

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“…We let P SH (1) be the group of Heisenberg rigid motions, that is, the group of all pseudohermitian transformations in H 1 . For details of this group, we refer readers to [4], which is the first published paper where the fundamental theorem in the Heisenberg groups has been studied. We say that two surfaces are congruent if they differ by an action of a Heisenberg rigid motion.…”

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confidence: 99%

A characterization of constant $p$-mean curvature surfaces in the Heisenberg group $H_1$

Chiu¹,

Liu²

2021

Preprint

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In Euclidean 3-space, it is well known that the Sine-Gordon equation was considered in the nineteenth century in the course of investigation of surfaces of constant Gaussian curvature K = −1. Such a surface can be constructed from a solution to the Sine-Gordon equation, and vice versa. With this as motivation, by means of the fundamental theorem of surfaces in the Heisenberg group H 1 , we show in this paper that the existence of a constant p-mean curvature surface (without singular points) is equivalent to the existence of a solution to a nonlinear second order ODE (1.2), which is a kind of Liénard equations. Therefore, we turn to investigate this equation. It is a surprise that we give a complete set of solutions to (1.2) (or (1.5)) in the p-minimal case, and hence use the types of the solution to divide p-minimal surfaces into several classes. As a result, we obtain a representation of p-minimal surfaces and classify further all p-minimal surfaces. In Section 9, we provide an approach to construct p-minimal surfaces. It turns out that, in some sense, generic pminimal surfaces can be constructed via this approach. Finally, as a derivation, we recover the Bernstein-type theorem which was first shown in [3] (or see [5,6]).

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The fundamental theorem for hypersurfaces in Heisenberg groups

Cited by 20 publications

References 10 publications

The Fundamental and Rigidity Theorems for Pseudohermitian Submanifolds in the Heisenberg Groups

The Fundamental and Rigidity Theorems for Pseudohermitian Submanifolds in the Heisenberg Groups

Positive mass theorem and the CR Yamabe equation on 5-dimensional contact spin manifolds

A characterization of constant $p$-mean curvature surfaces in the Heisenberg group $H_1$

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