A case for hidden bb tetraquarks based on e+e- bb cross section between s=10.54 and 11.20 GeV

Abstract

We study the spectroscopy and dominant decays of the bottomonium-like tetraquarks (bound diquarks-antidiquarks), focusing on the lowest lying P-wave [bq][bq] states Y[bq] (with q=u,d), having JPC=1--. To search for them, we analyse the BABAR data :2008hx obtained during an energy scan of the e + e- b b cross section in the range of s=10.54 to 11.20 GeV. We find that these data are consistent with the presence of an additional b b state Y[bq] with a mass of 10.90 GeV and a width of about 30 MeV apart from the (5S) and (6S) resonances. A closeup of the energy region around the Y[bq]-mass may resolve this state in terms of the two mass eigenstates, Y[b,l] and Y[b,h], with a mass difference, estimated as about 6 MeV. We tentatively identify the state Y[bq](10900) from the Rb-scan with the state Yb(10890) observed by BELLE Abe:2007tk in the process e+e- Yb(10890) (1S, 2S) π+ π- due to their proximity in masses and decay widths.