Double-bottom centrifugal-barrier molecules dancing with four quarks

Abstract

Motivated by the recent Belle II measurement of the open-bottom cross section, we perform a systematic study of the double-bottom molecular tetraquark spectrum, including both S-wave and P-wave configurations. Using the one-boson-exchange potential and the complex scaling method, we investigate the B(*)B* and B(*)B* systems and predict several bound states and resonances. Our analysis reveals a rich spectrum, including BB* (0(1++), 0(0-+)), B*B* (0(2++), 0(0-+), 0(1--)), BB* (0(1+)), and B*B* (0(1+)) bound states, as well as BB* (0(1--), 0(2--)), B*B* (0(3--)), BB* (0(0-)), and B*B* (0(1-), 0(2-)) resonances. Our results provide theoretical support for the existence of double-bottom tetraquarks and deliver key benchmarks for future searches at LHCb, Belle II, and other experiments.