Namespaces
Variants
Actions

Carleson measure

From Encyclopedia of Mathematics
Revision as of 16:56, 1 July 2020 by Maximilian Janisch (talk | contribs) (AUTOMATIC EDIT (latexlist): Replaced 19 formulas out of 19 by TEX code with an average confidence of 2.0 and a minimal confidence of 2.0.)
Jump to: navigation, search

Carleson measures were introduced in the early 1960s by L. Carleson [a1] to characterize the interpolating sequences in the algebra $H ^ { \infty }$ of bounded analytic functions in the open unit disc and to give a solution to the corona problem (cf. also Hardy spaces).

These measures can be defined in the following way: Let $\mu$ be a positive measure on the unit disc $\mathbf{D} = \{ z \in \mathbf{C} : | z | < 1 \}$. Then $\mu$ is called a Carleson measure if there exists a constant $C$ such that $\mu ( S ) \leq C h$ for every sector

\begin{equation*} S = \{ r e ^ { i \theta } : 1 - h \leq r < 1 , | \theta - \theta _ { 0 } | \leq h \}. \end{equation*}

Carleson measures play an important role in complex analysis (cf. also Analytic function), harmonic analysis, $\operatorname{BMO}$ theory (cf. also $\operatorname{BMO}$-space), the theory of integral operators, and the theory of $\overline { \partial }$-equations (cf. also Neumann $\overline { \partial }$-problem). One of Carleson's original theorems states that, with $\bf T$ denoting the boundary of $\mathbf D$, for $1 \leq p < \infty$ the Poisson operator (cf. also Poisson integral)

\begin{equation*} P : H ^ { p } ( \mathbf{T} ) \rightarrow L ^ { p } ( \mu , \mathbf{T} ), \end{equation*}

\begin{equation*} f \rightarrow \frac { 1 } { 2 \pi } \int _ { 0 } ^ { 2 \pi } \operatorname { Re } \frac { e ^ { i t } + z } { e ^ { t t } - z } f ( e ^ { i t } ) d t, \end{equation*}

is a bounded linear operator from the Hardy space $H ^ { p } ( \mathbf{T} )$ to $L ^ { p } ( \mu , \mathbf{D} )$ if and only if $\mu$ is a Carleson measure. Generalizations of this principle to various other function spaces in one or several real or complex variables have been given. Carleson measures and their generalizations can also be used to give complete characterizations of boundedness and compactness of composition operators on various spaces of analytic functions, such as Hardy and Bergman spaces (see [a2]).

References

[a1] L. Carleson, "Interpolation by bounded analytic functions and the corona problem" Ann. of Math. , 76 (1962) pp. 347–559
[a2] C. Cowen, B. MacCluer, "Composition operators on spaces of analytic functions" , CRC (1995)
How to Cite This Entry:
Carleson measure. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Carleson_measure&oldid=50119
This article was adapted from an original article by R. Mortini (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article