A Proof of Sundaram's Bounded-Interval Higher Lie Positivity Conjecture
Abstract
For positive integers n and M, Sundaram defined Fn,M=Σd n\ M Lien/d[pd] and conjectured that every coefficient in its Schur expansion is a nonnegative integer. We prove the conjecture. The power-sum expansion isolates the contribution of the identity class, and the proof divides Young diagrams at the intrinsic majority threshold. If the first row or first column contains more than half of the boxes, the Bernstein creation formula separates each rectangular-cycle character value into a hook constant and a remainder supported only on short cycles. The restrictions of the trivial and sign characters to the cyclic subgroup evaluate the constants exactly, whereas a uniform binomial contraction controls every distance from the boundary at once. If neither a row nor a column has a majority, Swanson's opposite-hook estimate gives a Catalan-scale lower bound for the dimension. The Fomin--Lulov rectangular-character estimate, together with uniform bounds for the truncated Möbius weights, then shows that the identity class dominates. Sundaram's plethystic identity consequently implies that Πr=1M(1-pr)-1 is Schur-positive for every fixed M. We also record a degree-12 counterexample to a separate congruence-class product conjecture attributed to Richard Stanley.
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