One-parameter counterexamples to the refined Bessis-Moussa-Villani conjecture
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The Bessis-Moussa-Villani (BMV) conjecture, originating in quantum statistical mechanics, was proved by Stahl after an influential reformulation by Lieb and Seiringer. A later refinement asks whether the normalized average over all words with $n$ letters $A$ and $m$ letters $B$ is always bounded above by $\mathrm{tr}(A^nB^m)$ and below by $\mathrm{tr}\exp(n\log A+m\log B)$. We study a specific one-parameter family $(A_x, B_x)$ and show that the correct small-$x$ invariant of a word is not its degree of fragmentation, but a weighted shortest-bridge cost on its cyclic run decomposition. Remarkably, the ratio of the normalized word average to the trace $\mathrm{tr}(A^nB^m)$ can become arbitrarily large.
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Cited by 1 Pith paper
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On the Failure of the Upper Bound in the Refined BMV Conjecture and a Pinching Correction
The refined BMV upper bound fails for 3x3 PSD matrices, explained via non-canonical common parts, and a pinching refinement is proposed and proved for the n,2 case as a sandwich inequality.
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