CP Violation in $Ï\rightarrow 3Ïν_Ï$
arXiv:hep-ph/9412203 · doi:10.1103/PhysRevD.52.1614
Abstract
We consider CP violating effects in the decays $Ï\rightarrow (3Ï)ν_Ï$ where both the ${\rm J}^{\rm P}=1^+$ resonance, $a_1$, and ${\rm J}^{\rm P}=0^-$ resonance, $Ï^\prime$, can contribute. The interference between the $a_1$ and $Ï^\prime$ resonances can lead to enhanced CP-violating asymmetries whose magnitudes depend crucially on the $Ï^\prime$ decay constant, $f_{Ï^\prime}$. We make an estimate of $f_{Ï^\prime}$ with a simplified chiral Lagrangian coupled to a massive pseudoscalar field, and we compare the estimates from the non-relativistic quark model and from the QCD sum rule with the estimate from the `mock' meson model. We then estimate quantitatively the size of CP-violating effects in a multi-Higgs-doublet model and scalar-leptoquark models. We find that, while CP-violating effects in the scalar-leptoquark models may require more than $10^{10}$ $Ï$ leptons, CP-violating effects from the multi-Higgs-doublet model can be seen at the $2Ï$ level with about $10^7$ $Ï$ leptons using the chiral Lagrangian estimate of $f_{Ï^\prime}=(1\sim 5)\times 10^{-3}$ GeV.
Latex, 30 pages, 2 figures (not included). Three compressed postscript files of the paper available at ftp://ftp.kek.jp/kek/preprints/TH/TH-419/kekth419.ps.gz, Tau1.ps.gz, Tau2.ps.gz