Citations:gluinoball


 * 2007 Marcus Berg et al, "Glueballs vs. Gluinoballs: Fluctuation Spectra in Non-AdS/Non-CFT" arXiv
 * We construct and apply a numerical recipe for computing mass spectra from certain determinants. In the Klebanov-Strassler case, states containing the glueball and gluinoball obey "quadratic confinement", i.e. their mass-squareds depend on consecutive number as m^2 ~ n^2 for large n, with a universal proportionality constant.
 * 2011 Fabien Buisseret, "The structure of the (SUSY) Yang-Mills spectrum for arbitrary simple gauge algebras" arXiv
 * In the case of {\cal N}=1 SUSY Yang-Mills, the lowest-lying gluinoball is found lighter than the lightest glueball.