Quark-level analogue of nuclear fusion with doubly-heavy baryons
Abstract
The recent discovery by LHCb of the first doubly-charmed baryon cc++ = ccu at 3621.40 0.78 MeV implies a large binding energy 130 MeV between the two c quarks. This strong binding enables a quark-rearrangement exothermic reaction \,c c cc++\,n\, with Q=12 MeV, which is a quark-level analogue of deuterium-tritium nuclear fusion reaction DT 4 He\,n. Due to much larger binding energy between two b quarks 280 MeV, the analogous reaction with b quarks, \,b b bb\,N\, is expected to have a dramatically larger Q-value, 138 12 MeV.
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