Whitney's type theorems for infinite dimensional spaces

Stanislav Shkarin

Whitney's type theorems for infinite dimensional spaces

Stanislav Shkarin

Research output: Contribution to journal › Article › peer-review

Abstract

It is proved that for any $f$ is an element of $C^k(L,R)$, where k is a natural number and L is a closed linear subspace of a nuclear Frechet space $X$, the function $f$ can be extended to a function of class $C^{k-1}$ defined on the entire space $X$. It is also proved that for any $f$ is an element of $C^k(L, R)$, where $k$ is a natural number of infinity and L is a closed linear subspace of a dual $X$ of a nuclear Frechet space, the function $f$ can be extended to a function of class $C^k$ defined on the entire space $X$. In addition, it is proved that under these conditions, the existence of a linear extension operator is equivalent to the complementability of the subspace.

Original language	English
Pages (from-to)	141-160
Number of pages	20
Journal	Infinite Dimensional Analysis Quantum Probability and Related Topics
Volume	3
Publication status	Published - 2000

Cite this

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title = "Whitney's type theorems for infinite dimensional spaces",

abstract = "It is proved that for any \$f\$ is an element of \$C\textasciicircum{}k(L,R)\$, where k is a natural number and L is a closed linear subspace of a nuclear Frechet space \$X\$, the function \$f\$ can be extended to a function of class \$C\textasciicircum{}\{k-1\}\$ defined on the entire space \$X\$. It is also proved that for any \$f\$ is an element of \$C\textasciicircum{}k(L, R)\$, where \$k\$ is a natural number of infinity and L is a closed linear subspace of a dual \$X\$ of a nuclear Frechet space, the function \$f\$ can be extended to a function of class \$C\textasciicircum{}k\$ defined on the entire space \$X\$. In addition, it is proved that under these conditions, the existence of a linear extension operator is equivalent to the complementability of the subspace.",

author = "Stanislav Shkarin",

year = "2000",

language = "English",

volume = "3",

pages = "141--160",

journal = "Infinite Dimensional Analysis Quantum Probability and Related Topics",

publisher = "World Scientific Publishing Co. Pte Ltd",

}

TY - JOUR

T1 - Whitney's type theorems for infinite dimensional spaces

AU - Shkarin, Stanislav

PY - 2000

Y1 - 2000

N2 - It is proved that for any $f$ is an element of $C^k(L,R)$, where k is a natural number and L is a closed linear subspace of a nuclear Frechet space $X$, the function $f$ can be extended to a function of class $C^{k-1}$ defined on the entire space $X$. It is also proved that for any $f$ is an element of $C^k(L, R)$, where $k$ is a natural number of infinity and L is a closed linear subspace of a dual $X$ of a nuclear Frechet space, the function $f$ can be extended to a function of class $C^k$ defined on the entire space $X$. In addition, it is proved that under these conditions, the existence of a linear extension operator is equivalent to the complementability of the subspace.

AB - It is proved that for any $f$ is an element of $C^k(L,R)$, where k is a natural number and L is a closed linear subspace of a nuclear Frechet space $X$, the function $f$ can be extended to a function of class $C^{k-1}$ defined on the entire space $X$. It is also proved that for any $f$ is an element of $C^k(L, R)$, where $k$ is a natural number of infinity and L is a closed linear subspace of a dual $X$ of a nuclear Frechet space, the function $f$ can be extended to a function of class $C^k$ defined on the entire space $X$. In addition, it is proved that under these conditions, the existence of a linear extension operator is equivalent to the complementability of the subspace.

M3 - Article

VL - 3

SP - 141

EP - 160

JO - Infinite Dimensional Analysis Quantum Probability and Related Topics

JF - Infinite Dimensional Analysis Quantum Probability and Related Topics

ER -

Whitney's type theorems for infinite dimensional spaces

Abstract

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