Shortest paths in polynomial lemniscate sublevel sets and a problem of Erdős

Abstract

Let f(z)=Πj=1n(z-aj) be monic, with all zeros in the closed unit disk, and put Ef=\z∈C: |z|≤ 1,\ |f(z)|≤ 1\. Let S(n) be the largest possible shortest length of a path in Ef joining 0 to ∂D, where the maximum is taken over all such polynomials of degree n. We prove that, for all sufficiently large n, c n≤ S(n)≤ πn with an absolute constant c>0. This proves the qualitative unboundedness predicted by Erdős. The proof combines an explicit geometric maze, Green-function and Faber-polynomial estimates, analytic quantization of circle measures, and a reciprocal-sweeping upper bound.