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ЖУРНАЛЫ // Алгебра и анализ // Архив

Алгебра и анализ, 2001, том 13, выпуск 2, страницы 93–115 (Mi aa927)

Эта публикация цитируется в 22 статьях

Статьи

Interpolation of subspaces and applications to exponential bases

S. Ivanova, N. Kaltonb

a Russian Center of Laser Physics, St. Petersburg State University, St. Petersburg, Russia
b Department of Mathematics, University of Missouri, Columbia, USA

Аннотация: Precise conditions are given under which the real interpolation space $[Y_0,X_1]_{\theta,p}$ coincides with a closed subspace of $[X_0,X_1]_{\theta,p}$ when $Y_0$ is a closed subspace of codimension one. This result is applied to the study of nonharmonic Fourier series in the Sobolev spaces $H^s(-\pi,\pi)$ with $0<s<1$. The main result looks like this: if $\{e^{i\lambda_nt}\}$ is an unconditional basis in $L^2(-\pi,\pi)$, then there exist two numbers $s_0$, $s_1$ such that for $s<s_0\{e^{i\lambda_nt}\}$ forms an unconditional basis in $H^s(-\pi,\pi)$, and for $s_1<s\{e^{i\lambda_nt}\}$ forms an unconditional basis of a closed subspace in $H^s(-\pi,\pi)$ of codimension one. If $s_0\le s\le s_1$, then the family $\{e^{i\lambda_nt}\}$ is not an unconditional basis in its span in $H^s(-\pi,\pi)$.

Ключевые слова: Riesz basis, Sobolev space, $K$-functional, Muckenhoupt condition, nonharmonic Fourier series.

Поступила в редакцию: 10.09.2000

Язык публикации: английский


 Англоязычная версия: St. Petersburg Mathematical Journal, 2002, 13:2, 221–239

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