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| Format: | Preprint |
| Veröffentlicht: |
2026
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| Online-Zugang: | https://arxiv.org/abs/2604.17780 |
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| _version_ | 1866908978537037824 |
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| author | Nam, Seung-il Ahn, Jung Keun |
| author_facet | Nam, Seung-il Ahn, Jung Keun |
| contents | We investigate the decay $ϕ\toπ^+π^-π^0$ in an effective-Lagrangian framework that keeps the dominant $ρπ$ mechanism and the direct three-pion term explicitly separated at the amplitude level. The resonant contribution is described with the Gounaris-Sakurai propagator, the neutral channel includes $ρ^0$-$ω$ mixing, and the leading elastic $P$-wave $ππ$ final-state interaction is incorporated through a constant on-shell Omnès factor $C_Ω\equiv|Ω_1(m_ρ^2)|$. The purpose of this approximation is not to provide a full dispersive reconstruction of $ϕ\to3π$, but to isolate the leading rescattering effect in a transparent phenomenological setting. With this setup, we obtain $Γ_{\rm th}=0.6950$ MeV, about $5\%$ above the empirical estimate $Γ_{\rm exp}\approx0.660\pm0.020$ MeV, while the direct integrated weight is reproduced at a realistic level, $I_{\mathrm{dir}}=8.457\times10^{-3}$. The computed on-shell Omnès factor, $C_Ω=4.794$, is quantitatively sizable, indicating that $ππ$ rescattering provides a nontrivial enhancement in the $ρ$-dominated channel. At the same time, the $x$ and especially the $y$ Dalitz projections still exhibit visible discrepancies near the phase-space boundary, showing that the present treatment should be viewed as an intermediate phenomenological step rather than a precision amplitude analysis. These residual tensions motivate the next stage: a fully $s$-dependent Omnès implementation and a direct fit to the efficiency-corrected KLOE Dalitz-bin data. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2604_17780 |
| institution | arXiv |
| publishDate | 2026 |
| record_format | arxiv |
| spellingShingle | Three-body decay $ϕ\toπ^+π^-π^0$ with Omnès-type final-state interactions Nam, Seung-il Ahn, Jung Keun High Energy Physics - Phenomenology We investigate the decay $ϕ\toπ^+π^-π^0$ in an effective-Lagrangian framework that keeps the dominant $ρπ$ mechanism and the direct three-pion term explicitly separated at the amplitude level. The resonant contribution is described with the Gounaris-Sakurai propagator, the neutral channel includes $ρ^0$-$ω$ mixing, and the leading elastic $P$-wave $ππ$ final-state interaction is incorporated through a constant on-shell Omnès factor $C_Ω\equiv|Ω_1(m_ρ^2)|$. The purpose of this approximation is not to provide a full dispersive reconstruction of $ϕ\to3π$, but to isolate the leading rescattering effect in a transparent phenomenological setting. With this setup, we obtain $Γ_{\rm th}=0.6950$ MeV, about $5\%$ above the empirical estimate $Γ_{\rm exp}\approx0.660\pm0.020$ MeV, while the direct integrated weight is reproduced at a realistic level, $I_{\mathrm{dir}}=8.457\times10^{-3}$. The computed on-shell Omnès factor, $C_Ω=4.794$, is quantitatively sizable, indicating that $ππ$ rescattering provides a nontrivial enhancement in the $ρ$-dominated channel. At the same time, the $x$ and especially the $y$ Dalitz projections still exhibit visible discrepancies near the phase-space boundary, showing that the present treatment should be viewed as an intermediate phenomenological step rather than a precision amplitude analysis. These residual tensions motivate the next stage: a fully $s$-dependent Omnès implementation and a direct fit to the efficiency-corrected KLOE Dalitz-bin data. |
| title | Three-body decay $ϕ\toπ^+π^-π^0$ with Omnès-type final-state interactions |
| topic | High Energy Physics - Phenomenology |
| url | https://arxiv.org/abs/2604.17780 |