Abstract
Crucial inputs for a variety of $CP$-violation studies can be determined through the analysis of pairs of quantum-entangled neutral $D$ mesons, which are produced in the decay of the $\psi(3770)$ resonance. The relative strong-phase parameters between $D^0$ and $\bar{D}^0$ in the decays $D^0\rightarrow K^0_{S,L}\pi^+\pi^-$ are studied using 2.93~${\rm fb}^{-1}$ of $e^+e^-$ annihilation data delivered by the BEPCII collider and collected by the BESIII detector at a center-of-mass energy of 3.773 GeV. Results are presented in regions of the phase space of the decay. These are the most precise measurements to date of the strong-phase parameters in $D \to K_{S,L}^0\pi^+\pi^-$ decays. Using these parameters, the associated uncertainty on the Cabibbo-Kobayashi-Maskawa angle $\gamma/\phi_3$ is expected to be between $0.7^\circ$ and $1.2^\circ$, for an analysis using the decay $B^{\pm}\rightarrow DK^{\pm}$, $D\rightarrow K^0_S\pi^+\pi^-$, where $D$ represents a superposition of $D^0$ and $\bar{D^0}$ states. This is a factor of three smaller than that achievable with previous measurements. Furthermore, these results provide valuable input for charm-mixing studies, other measurements of $CP$ violation, and the measurement of strong-phase parameters for other $D$-decay modes.
Highlights
The study of quantum-correlated charm-meson pairs produced at threshold allows unique access to hadronic decay properties that are of great interest across a wide range of physics applications
The angle γ is a parameter of the unitarity triangle (UT), which is a geometrical representation of the CKM matrix in the complex plane
In Eqs. (7), (9), (10), and (11), the normalization factors hðC0ÞP and hðc0oÞrr can be related to the yields of reconstructed signal and tag final states, the reconstruction efficiencies, and the number of neutral D-meson pairs NDDproduced in the data set, with hðC0ÞP 1⁄4SCP=2SFTð0Þ ×εK0SðLÞπþπ−, hcorr 1⁄4 NDD =ð2S2FTÞ×εK0Sπþπ−vs:K0Sπþπ−, and h0corr 1⁄4 NDD = ðSFTS0FTÞ × ε
Summary
The study of quantum-correlated charm-meson pairs produced at threshold allows unique access to hadronic decay properties that are of great interest across a wide range of physics applications. The strong-phase differences may be measured directly in the decays of quantum-correlated neutral D-meson pairs created in the decay of the ψð3770Þ resonance [3,6] This approach ensures a modelindependent [9,10,11,12,13] measurement of γ where the uncertainty in the strong-phase knowledge can be reliably propagated. Knowledge of the strong-phase difference in D → K0Sπþπ− has important applications beyond the measurement of the angle γ in BÆ → DKÆ decays. This information can be used in γ measurements based on other B decays [11,14]. This paper is accompanied by [23]
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