Unquenching weak substructure

Eef van Beveren; George Rupp; Susana Coito

arXiv:1502.04862·hep-ph·December 19, 2017

Unquenching weak substructure

Eef van Beveren, George Rupp, Susana Coito

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TL;DR

This paper argues that incorporating unquenching effects is essential for accurately predicting the spectrum of weak substructure resonances, assuming a QCD-like strong dynamics.

Contribution

It highlights the importance of unquenching in models of weak substructure with QCD-like dynamics for reliable spectral predictions.

Findings

01

Unquenching significantly affects resonance spectrum predictions

02

Weak substructure dynamics resemble QCD but are stronger

03

Unquenching is necessary for accurate theoretical predictions

Abstract

On assuming that Weak substructure has a dynamics which is similar to quantum chromodynamics but much stronger, we conclude that unquenching is indispensable for predictions on the spectrum of Weak-substructure resonances.

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Taxonomy

TopicsCold Atom Physics and Bose-Einstein Condensates · Quantum optics and atomic interactions · Quantum chaos and dynamical systems