中文

Final State Interactions in Hadronic B Decays

高能物理 - 唯象学 2014-11-18 v2 高能物理 - 实验

摘要

There exist many experimental indications that final-state interactions (FSIs) may play a prominent role not only in charmful B decays but also in charmless B ones. We examine the final-state rescattering effects on the hadronic B decay rates and their impact on direct CP violation. The color-suppressed neutral modes such as B0D0π0,π0π0,ρ0π0,K0π0B^0\to D^0\pi^0,\pi^0\pi^0,\rho^0\pi^0,K^0\pi^0 can be substantially enhanced by long-distance rescattering effects. The direct CP-violating partial rate asymmetries in charmless B decays to ππ/πK\pi\pi/\pi K and ρπ\rho\pi are significantly affected by final-state rescattering and their signs are generally different from that predicted by the short-distance approach. For example, direct CP asymmetry in B0ρ0π0B^0\to\rho^0\pi^0 is increased to around 60% due to final state rescattering effects whereas the short-distance picture gives about 1%. Evidence of direct CP violation in the decay Bˉ0Kπ+\bar B^0\to K^-\pi^+ is now established, while the combined BaBar and Belle measurements of Bˉ0ρ±π\bar B^0\to\rho^\pm\pi^\mp imply a 3.6σ3.6\sigma direct CP asymmetry in the ρ+π\rho^+\pi^- mode. Our predictions for CP violation agree with experiment in both magnitude and sign, whereas the QCD factorization predictions seem to have some difficulty with the data. Current data on πK\pi K modes seem to violate the isospin sum rule relation, suggesting the presence of electroweak penguin contributions. We have also investigated whether a large transverse polarization in BϕKB\to \phi K^* can arise from the final-state rescattering of D()Dˉs()D^{(*)}\bar D_s^{(*)} into ϕK\phi K^*.

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引用

@article{arxiv.hep-ph/0409317,
  title  = {Final State Interactions in Hadronic B Decays},
  author = {Hai-Yang Cheng and Chun-Khiang Chua and Amarjit Soni},
  journal= {arXiv preprint arXiv:hep-ph/0409317},
  year   = {2014}
}

备注

59 pages, 9 figures. Numerical results for B to phi K* are revised, while conclusion remains unchanged. Add several references. To appear in Phys. Rev. D