Mathematics – Classical Analysis and ODEs
Scientific paper
2009-06-11
Mathematics
Classical Analysis and ODEs
Scientific paper
Let $S\subset\R^d$ be a bounded subset with positive Lebesgue measure. The Paley-Wiener space associated to $S$, $PW_S$, is defined to be the set of all square-integrable functions on $\R^d$ whose Fourier transforms vanish outside $S$. A sequence $(x_j:j\kin\N)$ in $\R^d$ is said to be a Riesz-basis sequence for $L_2(S)$ (equivalently, a complete interpolating sequence for $PW_S$) if the sequence $(e^{-i\la x_j,\cdot\ra}:j\kin\N)$ of exponential functions forms a Riesz basis for $L_2(S)$. Let $(x_j:j\kin\N)$ be a Riesz-basis sequence for $L_2(S)$. Given $\lambda>0$ and $f\in PW_S$, there is a unique sequence $(a_j)$ in $\ell_2$ such that the function $$ I_\lambda(f)(x):=\sum_{j\in\N}a_je^{-\lambda \|x-x_j\|_2^2}, \qquad x\kin\R^d, $$ is continuous and square integrable on $\R^d$, and satisfies the condition $I_\lambda(f)(x_n)=f(x_n)$ for every $n\kin\N$. This paper studies the convergence of the interpolant $I_\lambda(f)$ as $\lambda$ tends to zero, {\it i.e.,\} as the variance of the underlying Gaussian tends to infinity. The following result is obtained: Let $\delta\in(\sqrt{2/3},1]$ and $0<\beta<\sqrt{3\delta^2 -2}$. Suppose that $\delta B_2\subset Z\subset B_2$, and let $(x_j:j\in\N)$ be a Riesz basis sequence for $L_2(Z)$. If $f\in PW_{\beta B_2}$, then $f=\lim_{\lambda\to 0^+} I_\lambda(f)$ in $L_2(\R^d)$ and uniformly on $\R^d$. If $\delta=1$, then one may take $\beta$ to be 1 as well, and this reduces to a known theorem in the univariate case. However, if $d\ge2$, it is not known whether $L_2(B_2)$ admits a Riesz-basis sequence. On the other hand, in the case when $\delta<1$, there do exist bodies $Z$ satisfying the hypotheses of the theorem (in any space dimension).
Bailey A.
Schlumprecht Th.
Sivakumar N.
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