@misc{10481/78815,
year = {2022},
month = {12},
url = {https://hdl.handle.net/10481/78815},
abstract = {For a given polynomial P with simple zeros, and a given semiclassical weight w, we present a construction that yields a linear second-order differential equation (ODE), and in consequence, an electrostatic model for zeros of P. The coefficients of this ODE are written in terms of a dual polynomial that we call the electrostatic partner of P. This construction is absolutely general and can be carried out for any polynomial with simple zeros and any semiclassical weight on the complex plane. An additional assumption of quasi-orthogonality of P with respect towallows us to give more precise bounds on the degree of the electrostatic partner. In the case of orthogonal and quasiorthogonal polynomials, we recover some of the known results and generalize others. 
Additionally, for the Hermite–Padé or multiple orthogonal polynomials of type II, this approach yields a system of linear second-order differential equations, from which we derive an electrostatic interpretation of their zeros in terms of a vector equilibrium. More detailed results are obtained in the special cases of Angelesco, Nikishin, and generalized Nikishin systems.We also discuss the discrete-to-continuous transition of thesemodels in the asymptotic regime, as the number of zeros tends to infinity, into the known vector equilibrium problems. Finally, we discuss how the system of obtained second-order ODEs yields a third-order differential equation for these polynomials, well described in the literature. We finish the paper by presenting several illustrative examples.},
organization = {The first author was partially supported by Simons Foundation Collaboration Grants
for Mathematicians (grant 710499). He also acknowledges the support of the Spanish Government and the
European RegionalDevelopment Fund (ERDF) through grant PID2021-124472NB-I00, Junta deAndalucía
(research group FQM-229 and Instituto Interuniversitario Carlos I de Física Teórica y Computacional),
and by the University of Almería (Campus de Excelencia Internacional del Mar CEIMAR) in the early
stages of this project. The second and third authors were partially supported by Spanish Ministerio de
Ciencia, Innovación y Universidades, under grant MTM2015-71352-P. The third author was additionally
supported by Junta de Andalucía (research group FQM-384), the University of Granada (Research
Project ERDF-UGR A-FQM-246-UGR20), and by the IMAG-Maria de Maeztu grant CEX2020-001105-
M/AEI/10.13039/501100011033.
Funding for open access publishing: Universidad de Granada/CBUA},
publisher = {Springer},
keywords = {Multiple orthogonal polynomials},
keywords = {Electrostatic interpretation of zeros of orthogonal polynomials},
title = {Electrostatic Partners and Zeros of Orthogonal and Multiple Orthogonal Polynomials},
doi = {https://doi.org/10.1007/s00365-022-09609-x},
author = {Martinez-Finkelshtein, Andrei and Orive, Ramón and Sánchez Lara, Joaquín Francisco},
}