Impact of new invisible particles on B K(*) E miss observables
Abstract
Motivated by a recent Belle~II measurement that suggests an excess in the rare decay B K\, E miss, and building upon our recent differential decay rate likelihood analysis of the existing experimental information, we investigate possible new physics (NP) scenarios in which light invisible states participate in flavour-changing b s transitions. In particular, we consider the total and differential B K* E miss decay rates and K* polarisation effects in each NP scenario preferred by the B K E miss measurement. We show that future measurements of these B K* E miss observables will offer decisive discrimination among the different NP explanations. Our results highlight the strong complementarity of the rare semi-invisible b-hadron decay observables, and underline the importance of analysing their momentum transfer spectra when probing extensions of the Standard Model that feature new light degrees of freedom.
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