Necessary Conditions for Single-Critical-Point Higher-Order Szego Sum Rules in OPUC

Abstract

We prove the necessity part of the higher-order Szego theorem on the unit circle for the single-critical-point weights Hm(eiθ)=(1-θ)m, m1. If \αn\n0 are the Verblunsky coefficients of a nontrivial probability measure dμ=w(θ)dθ/(2π)+dμ s, then the weighted Szego condition ∫02π (1-θ)m w(θ)dθ2π>-∞ implies mα∈2, \,\, α∈2m+2. The proof uses a finite-volume version of Yan's higher-order sum rule. The quadratic part yields the m-th difference energy, and the logarithmic tail yields the 2m+2-control. The non-sign-definite critical terms are treated in two steps. First, the quartic principal critical block is isolated using the Yan quotient-algebra normal representative and shown to have a positive semidefinite Gram representation. Second, the remaining non-principal critical terms are controlled by the diagonal-vanishing property Yk,crit(m) ∈ Ik\,m+1-k, \,\, 2 k m, together with the Breuer--Simon--Zeitouni normal form, discrete interpolation, and Young's inequality. These estimates yield a uniform finite-volume coercive bound, from which the necessity theorem follows for all m1.