Simultaneous approximation via Laplacians on the unit ball
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2023-10-13
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Springer
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We study the orthogonal structure on the unit ball $\mathbf{B}^d$ of $\mathbb{R}^d$ with respect to the Sobolev inner products
$$
\left\langle f,g\right\rangle_{\Delta} =\lambda\, \mathscr{L}(f,g)
+ \int_{\mathbf{B}^d}{\Delta[(1-\|x\|^2) f(x)] \, \Delta[(1-\|x\|^2) g(x)]\,dx},
$$
where $\mathscr{L}(f,g) = \int_{\mathbf{S}^{d-1}}f(\xi)\,g(\xi)\,d\sigma(\xi)$ or $\mathscr{L}(f,g) = f(0) g(0)$, $\lambda >0$,
$\sigma$ denotes the surface measure on the unit sphere $\mathbf{S}^{d-1}$, and $\Delta$ is the usual Laplacian operator. Our main contribution consists in the study of orthogonal polynomials associated with $\langle \cdot, \cdot \rangle_{\Delta}$, giving their explicit expression in terms of the classical orthogonal polynomials on the unit ball, and proving that they satisfy a fourth-order partial differential equation, extending the well known property for ball polynomials since they satisfy a second order PDE. We also study the approximation properties of the Fourier sums with respect to these orthogonal polynomials and, in particular, we estimate the error of simultaneous approximation of a function, its partial derivatives, and its Laplacian in the $L^2(\mathbf{B}^d)$ space.
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Marriaga, M.E., Pérez, T.E. & Recarte, M.J. Simultaneous Approximation via Laplacians on the Unit Ball. Mediterr. J. Math. 20, 316 (2023). https://doi.org/10.1007/s00009-023-02509-9
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