English

Isospin-based EWP-tree Relations

High Energy Physics - Phenomenology 2026-05-28 v2

Abstract

In 1998, it was shown that, if flavor SU(3) symmetry [SU(3)F_F] is assumed in charmless BPPB \to PP decays (PP is a light pseudoscalar meson), some reduced matrix elements involving electroweak penguin (EWP) operators are related to those involving tree operators. Similarly, EWP diagrams are related to tree diagrams. These SU(3)F_F EWP-tree relations were recently used in global analyses of BPPB \to PP decays. They have also been used over the years in analyses of the BπKB \to \pi K puzzle, even though the BπKB \to \pi K amplitudes are related by isospin symmetry [SU(2)I_I], and not the full SU(3)F_F. In this paper, we show that, even if only SU(2)I_I is assumed, there are still EWP-tree relations. In ΔS=0\Delta S=0 decays, these relations are similar to those of SU(3)F_F, and can be used to take into account the EWP contributions in the extraction of the CP phase α\alpha from BππB \to \pi\pi decays. In ΔS=1\Delta S=1 decays, the SU(2)I_I EWP-tree relations are quite different from those of SU(3)F_F; when these are used to analyze the BπKB \to \pi K puzzle, one now finds a 4-5σ\sigma discrepancy with the Standard Model, much larger than what was previously found. We argue that, if one analyzes a set of hadronic BB decays whose amplitudes are related by isospin, one must use the SU(2)I_I EWP-tree relations for that set of decays in the analysis.

Keywords

Cite

@article{arxiv.2510.13969,
  title  = {Isospin-based EWP-tree Relations},
  author = {Bhubanjyoti Bhattacharya and Marianne Bouchard and Alexandre Jean and David London and Ipsita Ray},
  journal= {arXiv preprint arXiv:2510.13969},
  year   = {2026}
}

Comments

30 pages, typos corrected, added discussion on limits of EWP-Tree relations, results unchanged; version published in the Journal of High Energy Physics

R2 v1 2026-07-01T06:39:48.671Z