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A New Hadron Spectroscopy

High Energy Physics - Experiment 2014-12-10 v1 High Energy Physics - Phenomenology Nuclear Experiment Nuclear Theory

Abstract

QCD-motivated models for hadrons predict an assortment of "exotic" hadrons that have structures that are more complex than the quark-antiquark mesons and three-quark baryons of the original quark-parton model. These include pentaquark baryons, the six-quark H-dibaryon, and tetraquark, hybrid and glueball mesons. Despite extensive experimental searches, no unambiguous candidates for any of these exotic configurations have been identified. On the other hand, a number of meson states, one that seems to be a proton-antiproton bound state, and others that contain either charmed-anticharmed quark pairs or bottom-antibottom quark pairs, have been recently discovered that neither fit into the quark-antiquark meson picture nor match the expected properties of the QCD-inspired exotics. Here I briefly review results from a recent search for the H-dibaryon, and discuss some properties of the newly discovered states --the proton-antiproton state and the so-called XYZ mesons-- and compare them with expectations for conventional quark-antiquark mesons and the predicted QCD-exotic states.

Keywords

Cite

@article{arxiv.1411.7738,
  title  = {A New Hadron Spectroscopy},
  author = {Stephen Lars Olsen},
  journal= {arXiv preprint arXiv:1411.7738},
  year   = {2014}
}

Comments

34 pages, 22 figures, a review article that will appear in Frontiers of Physics

R2 v1 2026-06-22T07:14:44.166Z