Zeros of Stern polynomials in the complex plane

Abstract

The classical Stern sequence of positive integers was extended to a polynomial sequence Sn(λ) by Klavzar et. al. by defining S0(λ) = 0, S1(λ) = 1, and S2n(λ) = λ Sn(λ), S2n+1(λ) = Sn(λ) + Sn+1(λ). Dilcher et. al. conjectured that all roots of Sn(λ) lie in the half-plane \Re w < 1\. We make partial progress on this conjecture by proving that \|w-2| ≤ 1\⊂eq C does not contain any roots of Sn(λ). Our proof uses the Parabola Theorem for convergence of complex continued fractions. As a corollary, we establish a conjecture of Ulas and Ulas by showing that Sp(λ) is irreducible in Z[λ] whenever p is a positive prime.

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