A model-independent parameterization of B→ππ decays
Abstract
We introduce a novel parameterization of B→ππ form factors relying on partial-wave decompositions and series expansions in suitable variables. We bound the expansion coefficients through unitarity and include left-hand cut contributions using established dispersive methods. The two-hadron lineshapes are treated in a model-independent manner using Omn\`es functions, thus allowing for a data-driven determination of the expansion parameters. We study the underlying composition of the di-pion system in B→ππ decays through fits to differential spectra of B+ → π+π- + measured by the Belle experiment. In contrast to previous works, we are able to study the full phase-space and are not limited to certain kinematic regions. As a consequence, we extract branching fractions for the different partial waves of the di-pion system. We find: align* B(B+→ (π+ π-)S + ) &= 2.2+1.4-1.0× 10-5\,,\\ B(B+→ (π+ π-)P +) &= 19.6+2.8-2.7× 10-5\,,\\ B(B+→ (π+ π-)D + ) &= 3.5+1.3-1.1× 10-5\,.\\ align* In addition, we derive predictions for the thus far unobserved B+→ π0π0+ decay and obtain a sizeable branching fraction of B(B+→ π0π0+) = 2.9+0.9-0.7× 10-5.
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