Nuclear and nucleon transitions of the H di-baryon
arXiv:hep-ph/0308137 · doi:10.1103/PhysRevD.70.014008
Abstract
We consider 3 types of processes pertinent to the phenomenology of an H di-baryon: conversion of two $Î$'s in a doubly-strange hypernucleus to an H, decay of the H to two baryons, and -- if the H is light enough -- conversion of two nucleons in a nucleus to an H. We compute the spatial wavefunction overlap using the Isgur-Karl and Bethe-Goldstone wavefunctions, and treat the weak interactions phenomenologically. The observation of $Î$ decays from doubly-strange hypernuclei puts a constraint on the H wavefunction which is plausibly satisfied. In this case the H is very long-lived as we calculate. An absolutely stable H is not excluded at present. SuperK can provide valuable limits.