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Main Authors: Chang, Chi-Ming, Duary, Sarthak, Liu, Kangning
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.25560
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author Chang, Chi-Ming
Duary, Sarthak
Liu, Kangning
author_facet Chang, Chi-Ming
Duary, Sarthak
Liu, Kangning
contents We compute the finite-$N$ Witten index of BMN matrix quantum mechanics after summing over all partition-labeled supersymmetric vacuum sectors. Starting from the unitary-matrix integral for each sector, we develop two complementary evaluation methods: a symmetric-group character expansion, which reduces each fixed fugacity order to a finite combinatorial sum, and a residue expansion in which the contributing poles are organized by rooted trees, with a colored-tree generalization for multi-partition sectors. Direct integration and constant-term extraction provide independent checks in explicit examples. We evaluate every vacuum sector for $N\leq 9$. In the equal-fugacity expansion, the coefficients near charges $j\sim N^2$ show entropy growth of order $N^2$, and the sector sum does not cancel this growth. The finite-$N$ data also reveal a nontrivial sectoral organization: near $j=N^2$, the sector giving the largest contribution changes with $N$, from single-partition sectors at small rank to double-partition sectors starting at $N=5$. We call this phenomenon dominance switching. These results provide a quantitative finite-$N$ foundation for using the BMN index as a diagnostic of protected plane-wave black-hole microstates and suggest a bulk interpretation in terms of plane-wave black holes dressed by macroscopic M2 giant gravitons, analogous to dual dressed black holes in $AdS_5\times S^5$.
format Preprint
id arxiv_https___arxiv_org_abs_2605_25560
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Finite-$N$ BMN index across all vacuum sectors
Chang, Chi-Ming
Duary, Sarthak
Liu, Kangning
High Energy Physics - Theory
We compute the finite-$N$ Witten index of BMN matrix quantum mechanics after summing over all partition-labeled supersymmetric vacuum sectors. Starting from the unitary-matrix integral for each sector, we develop two complementary evaluation methods: a symmetric-group character expansion, which reduces each fixed fugacity order to a finite combinatorial sum, and a residue expansion in which the contributing poles are organized by rooted trees, with a colored-tree generalization for multi-partition sectors. Direct integration and constant-term extraction provide independent checks in explicit examples. We evaluate every vacuum sector for $N\leq 9$. In the equal-fugacity expansion, the coefficients near charges $j\sim N^2$ show entropy growth of order $N^2$, and the sector sum does not cancel this growth. The finite-$N$ data also reveal a nontrivial sectoral organization: near $j=N^2$, the sector giving the largest contribution changes with $N$, from single-partition sectors at small rank to double-partition sectors starting at $N=5$. We call this phenomenon dominance switching. These results provide a quantitative finite-$N$ foundation for using the BMN index as a diagnostic of protected plane-wave black-hole microstates and suggest a bulk interpretation in terms of plane-wave black holes dressed by macroscopic M2 giant gravitons, analogous to dual dressed black holes in $AdS_5\times S^5$.
title Finite-$N$ BMN index across all vacuum sectors
topic High Energy Physics - Theory
url https://arxiv.org/abs/2605.25560