Constraining glueball couplings

Andrea L. Guerrieri; Aditya Hebbar; Balt C. van Rees

doi:10.1103/f46t-xp36

Constraining glueball couplings

Andrea L. Guerrieri
, Aditya Hebbar
, Balt C. van Rees

Research output: Contribution to journal › Article › peer-review

Abstract

We set up a numerical S-matrix bootstrap problem to rigorously constrain bound-state couplings given by the residues of poles in elastic amplitudes. We extract upper bounds on these couplings that follow purely from unitarity, crossing symmetry, and the Roy equations within their proven domain of validity. First we consider amplitudes with a single spin-0 or spin-2 bound state, both with or without a self-coupling. Subsequently we investigate amplitudes with the spectrum of bound states corresponding to the estimated glueball masses of pure SUð3Þ Yang-Mills. In the latter case the “glue-hedron,” the space of allowed couplings, provides a first-principles constraint for future lattice estimates.

Original language	English
Article number	094023
Journal	Physical Review D
Volume	112
Issue number	9
DOIs	https://doi.org/10.1103/f46t-xp36
Publication status	Published - 12 Nov 2025

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AB - We set up a numerical S-matrix bootstrap problem to rigorously constrain bound-state couplings given by the residues of poles in elastic amplitudes. We extract upper bounds on these couplings that follow purely from unitarity, crossing symmetry, and the Roy equations within their proven domain of validity. First we consider amplitudes with a single spin-0 or spin-2 bound state, both with or without a self-coupling. Subsequently we investigate amplitudes with the spectrum of bound states corresponding to the estimated glueball masses of pure SUð3Þ Yang-Mills. In the latter case the “glue-hedron,” the space of allowed couplings, provides a first-principles constraint for future lattice estimates.

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JO - Physical Review D

JF - Physical Review D

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Constraining glueball couplings

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