Interlacing Polynomials and the Veronese Construction for Rational Formal Power Series
Abstract: Fixing a positive integer $r$ and $0 \le k \le r-1$, define $f{\langle r,k \rangle}$ for every formal power series $f$ as $ f(x) = f{\langle r,0 \rangle}(xr)+xf{\langle r,1 \rangle}(xr)+ \cdots +x{r-1}f{\langle r,r-1 \rangle}(xr).$ Jochemko recently showed that the polynomial $U{n}_{r,k}\, h(x) := \left( (1+x+\cdots+x{r-1}){n} h(x) \right){\langle r,k \rangle}$ has only nonpositive zeros for any $r \ge \deg h(x) -k$ and any positive integer $n$. As a consequence, Jochemko confirmed a conjecture of Beck and Stapledon on the Ehrhart polynomial $h(x)$ of a lattice polytope of dimension $n$, which states that $U{n}_{r,0}\,h(x)$ has only negative, real zeros whenever $r\ge n$. In this paper, we provide an alternative approach to Beck and Stapledon's conjecture by proving the following general result: if the polynomial sequence $\left( h{\langle r,r-i \rangle}(x)\right){1\le i \le r}$ is interlacing, so is $\left( U{n}{r,r-i}\, h(x) \right)_{1\le i \le r}$. Our result has many other interesting applications. In particular, this enables us to give a new proof of Savage and Visontai's result on the interlacing property of some refinements of the descent generating functions for colored permutations. Besides, we derive a Carlitz identity for refined colored permutations.
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