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On Marcinkiewicz-Zygmund inequalities and $A_p$-weights for $L$-shape arcs

Published 9 Sep 2022 in math.CA | (2209.04550v1)

Abstract: Let $\Gamma$ be an $L$-shape arc consisting of 2 line segments that meet at an angle different from $\pi$ in the complex $z$-plane $\CC$. This paper is to investigate the behavior of the polynomial interpolants at the Fej\'er points, defined by ${z_{n,k} = \psi(e{i(2k\pi + \theta)/(n+1)})}$ for any choice of $\theta$. In this regard, we recall that for the interval [-1, 1], the Fej\'er points ${z_{n,k} = \psi*(e{i(2k+1)\pi/(n+1)})}$ agree with the Chebyshev points and that the Chebyshev points are most commonly used as nodes for Lagrange polynomial interpolation. On the other hand, numerical experimentation demonstrates that for a typical open $L$-shape arc $\Gamma$, the Lebesgue constants tend to $\infty$ at the rate of $O((log(n))2)$, as the polynomial degree $n$ increases, while the $A_{p}$-weight conditions for the Fej\'er points ${z_{n,k}}$ do not carry over from [-1, 1] to a truly $L$-shape arc. Further numerical experiments also demonstrate that the least upper bounds of the Marcinkiewicz-Zygmund inequalities for the canonical Lagrange interpolation polynomials at ${z_{n,k}}$ seem to grow at the rate of $n{\beta}$, for some $\beta >0$ that depends on $p >1$.

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