000003445 001__ 3445 000003445 005__ 20230301153254.0 000003445 037__ $$aBELLE2-TALK-CONF-2023-020 000003445 041__ $$aeng 000003445 088__ $$aBELLE2-TALK-DRAFT-2023-001 000003445 100__ $$aAlessandro Boschetti 000003445 245__ $$aBottomonium physics at Belle II 000003445 260__ $$a59th International Meeting on Nuclear Physics$$c2023-01-23 000003445 300__ $$amult. p 000003445 520__ $$aBottomonium spectroscopy offers excellent opportunities for insights on the behavior of QCD in the non-perturbative regime. In order to guide theorists through the difficult task of modeling non-perturbative QCD phenomena, the experimental measurement of masses, widths, and transition rates of bb¯ states is crucial. Recent analyses of Belle and Belle II data samples unveiled unexpected results in this field, such as the observation of anomalous transition rates and of new states that challenge the conventional description of bb¯ mesons. In particular, the newly observed state identified as Y(10753) is generating a big interest among theorists concerning its interpretation. The bb¯ spectroscopy is thus encouraging the birth of a variety of new theoretical models. The latter include the contribution of hadronic loops, or the existence of exotic states such as compact tetraquarks, hadrobottomonia and hybrids. Belle II has the unique opportunity to analyze the 19 fb−1 data sample collected with a scan near √s=10.75 GeV, in order to provide experimental results in this sector. The talk will thus be focused on the recent Belle II results with the scan data and related prospects. 000003445 8560_ $$fdjaffe@bnl.gov 000003445 8564_ $$uhttps://docs.belle2.org/record/3445/files/BELLE2-TALK-CONF-2023-020.pdf