A phenomenological analysis of charmless $B\to PV$ decays in the modified perturbative QCD approach

TL;DR

This paper investigates charmless B meson decays into a pseudoscalar and a vector meson using a modified perturbative QCD approach, incorporating nonperturbative effects and SU(3) symmetry considerations to match experimental data.

Contribution

It introduces soft form factors and color-octet contributions into PQCD calculations, reducing parameters via SU(3) symmetry, and fits these to data to explain decay patterns and CP asymmetries.

Findings

Soft contributions significantly affect theoretical predictions.

The approach aligns well with experimental branching ratios.

More precise data needed for CP asymmetry analysis.

Abstract

We analyze the charmless two-body decays of the $B$ meson into a pseudoscalar and a vector meson, referred to as $B\to PV$ decay, within the framework of the modified perturbative QCD (PQCD) approach. Based on the conventional PQCD calculations, soft form factors and contributions arising from color-octet quark-antiquark components in the final state are introduced in this study, which involves essentially nonperturbative dynamics. By employing the flavor SU(3) symmetry and its breaking effect, the parameters describing soft contributions are correlated and subsequently reduced into a more concise set of SU(3) parameters. Through a $\chi^2$ analysis procedure applied to the experimental data, these parameters are determined, for which the corresponding theoretical results for the branching ratios and $CP$ asymmetries in $B\to PV$ decays are derived. Within this framework, it is demonstrated that the theoretical calculations align well with experimental measurements, thereby offering a solution to several long-standing puzzles. The numerical analysis shows that these soft contributions have significant influence on the theoretical results. Furthermore, more precise experimental data are needed for deeper investigations of the $CP$ asymmetries.