Polarization transfer in 'ππ: a complete spin density matrix analysis framework

Abstract

A theoretical framework based on the Spin Density Matrix (SDM) formalism is developed to describe polarization transfer in the decay chain e+e- → → ππ. Explicit relations connecting the SDMs of and are derived, generalizing Cahn's analysis into a complete SDM treatment. For the dominant S-wave ππ emission, the SDM is shown to be perfectly preserved, = , rendering the an ideal probe of the initial polarization state. Deviations arising from D-wave contributions are quantified, and a self-consistency experimental test is proposed that simultaneously validates the framework and constrains partial wave amplitudes. This formalism provides a consistent basis for extracting polarization and for amplitude analyses of subsequent decays in a continuum-background-free environment. The framework extends to other hadronic transitions, including ' hcπ0 in charmonium and (nS) (mS)ππ in bottomonium, as well as to electroweak processes such as e+e- Z ZH, where the same angular-momentum structure governs polarization transfer -- offering a unified probe of dynamics from charmonium to the Higgs sector.

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