On a class of rational matrices and interpolating polynomials related to the discrete Laplace operator

doi:10.1285/i15900932v28n2p1

On a class of rational matrices and interpolating polynomials related to the discrete Laplace operator

Pierpaolo Vivo, Mario Casartelli, Luca Dall’Asta, Alessandro Vezzani

Abstract

Let $\dlap$ be the discrete Laplace operator acting on functions(or rational matrices) $f:\mathbf{Q}_L\rightarrow\mathbb{Q}$ ,where $\mathbf{Q}_L$ is the two dimensional lattice of size $L$ embedded in $\mathbb{Z}_2$ . Consider a rational $L\times L$ matrix $\mathcal{H}$ , whose inner entries $\mathcal{H}_{ij}$ satisfy $\dlap\mathcal{H}_{ij}=0$ . The matrix $\mathcal{H}$ is thus theclassical finite difference five-points approximation of theLaplace operator in two variables. We give a constructive proofthat $\mathcal{H}$ is the restriction to $\mathbf{Q}_L$ of adiscrete harmonic polynomial in two variables for any $L>2$ . Thisresult proves a conjecture formulated in the context ofdeterministic fixed-energy sandpile models in statisticalmechanics.

DOI Code: 10.1285/i15900932v28n2p1

Keywords: rational matrices; discrete Laplacian; discrete harmonic polynomials; sandpile

Classification: 11C99 (Polynomials and matrices)

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On a class of rational matrices and interpolating polynomials related to the discrete Laplace operator

Abstract