📝 SummarXiv

Abstract

Let $f$ be a monic univariate polynomial. We say that $f$ is positive if $f(x)$ is positive over all $x > 0$. If all the coefficients of $f$ are non-negative, then $f$ is trivially positive. In 1883, Poincar\'e proved that $f$ is positive if and only if there exists a monic polynomial $g$ such that all the coefficients of $gf$ are non-negative. Such polynomial $g$ is called a Poincar\'e multiplier for the positive polynomial $f$. Of course one hopes to find a multiplier with smallest degree. In 1911, Meissner provided such a bound for quadratic polynomials. In this paper, we provide a linear algebra proof of Meissner's optimal bound and compare an improved optimal degree Poincar\'e multiplier to one provided by Meissner.