Equiaffine immersions of codimension two with flat connection and one-dimensional Weingarten mapping

Q3 Mathematics Matematychni Studii Pub Date : 2023-09-22 DOI:10.30970/ms.60.1.99-112
O. O. Shugailo
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Abstract

In the paper we study equiaffine immersions $f\colon (M^n,\nabla) \rightarrow {\mathbb{R}}^{n+2}$ with flat connection $\nabla$ and one-dimensional Weingarten mapping. For such immersions there are two types of the transversal distribution equiaffine frame.We give a parametrization of a submanifold with the given properties for both types of equiaffine frame. The main result of the paper is contained in Theorems 1, 2 and Corollary 1: Let $f\colon ({M}^n,\nabla)\rightarrow({\mathbb{R}}^{n+2},D)$ be an affine immersion with pointwise codimension 2, equiaffine structure, flat connection $\nabla$, one-dimensional Weingarten mapping then there exists three types of its parametrization:$(i)$ $\vec{r}=g(u^1,\ldots,u^n) \vec{a}_1+\int\vec{\varphi}(u^1)du^1+\sum\limits_{i=2}^n u^i\vec{a}_i;$$(ii)$ $\vec{r}=(g(u^2,\ldots,u^n)+u^1)\vec{a}+\int v(u^1) \vec{\eta}(u^1)du^1+\sum\limits_{i=2}^n u^i\int\lambda_i(u^1)\vec{\eta}(u^1)du^1;$$(iii)$ $\vec{r}=(g(u^2,\ldots,u^n)+u^1)\vec{\rho}(u^1)+\int (v(u^1) - u^1)\dfrac{d \vec{\rho}(u^1)}{d u^1}du^1+\sum\limits_{i=2}^n u^i\int\lambda_i(u^1)\dfrac{d \vec{\rho}(u^1)}{d u^1}du^1.$
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具有平面连接和一维Weingarten映射的余维二等仿射浸入
本文研究等仿射浸没 $f\colon (M^n,\nabla) \rightarrow {\mathbb{R}}^{n+2}$ 带平连接 $\nabla$ 和一维维因加滕映射。对于这种浸没,有两种类型的横向分布等仿框架。对于这两类等仿坐标系,我们给出了具有给定性质的子流形的参数化。本文的主要结果包含在定理1、定理2和推论1中 $f\colon ({M}^n,\nabla)\rightarrow({\mathbb{R}}^{n+2},D)$ 是一种仿射浸渍,具有点余维2,等仿射结构,平面连接 $\nabla$,则其参数化存在三种类型:$(i)$ $\vec{r}=g(u^1,\ldots,u^n) \vec{a}_1+\int\vec{\varphi}(u^1)du^1+\sum\limits_{i=2}^n u^i\vec{a}_i;$$(ii)$ $\vec{r}=(g(u^2,\ldots,u^n)+u^1)\vec{a}+\int v(u^1) \vec{\eta}(u^1)du^1+\sum\limits_{i=2}^n u^i\int\lambda_i(u^1)\vec{\eta}(u^1)du^1;$$(iii)$ $\vec{r}=(g(u^2,\ldots,u^n)+u^1)\vec{\rho}(u^1)+\int (v(u^1) - u^1)\dfrac{d \vec{\rho}(u^1)}{d u^1}du^1+\sum\limits_{i=2}^n u^i\int\lambda_i(u^1)\dfrac{d \vec{\rho}(u^1)}{d u^1}du^1.$
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来源期刊
Matematychni Studii
Matematychni Studii Mathematics-Mathematics (all)
CiteScore
1.00
自引率
0.00%
发文量
38
期刊介绍: Journal is devoted to research in all fields of mathematics.
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