Abstract In this work, we study the nonleptonic decays ₂₂^++ ₂^ () + ^+ Ξ cc + + → Ξ c (′) + π + with considering ₂- ₂^ Ξ c - Ξ c ′ mixing. The relevant decay amplitudes are evaluated within the framework of nonrelativistic quark model, combining the baryon spatial wave functions adopted from solving the Schrödinger equation with a nonrelativistic potential. With the mixing angle ranging (-18. 2^, -14. 3^), θ ∈ (- 18. 2 ∘, - 14. 3 ∘), we successfully reproduce the measured ratio R= {B} ₂₂^++ ₂^ + ^+/ {B} ₂₂^++ ₂^+ ^+ R = B Ξ cc + + → Ξ c ′ + π + / B Ξ cc + + → Ξ c + π + reported by the LHCb Collaboration. Furthermore, we estimate the branching fractions as {B} ₂₂^++ ₂^+ ^+= (3. 2 4. 3) \% B Ξ cc + + → Ξ c + π + = (3. 2 ∼ 4. 3) % and {B} ₂₂^++ ₂^ + ^+= (4. 2 6. 0) \%, B Ξ cc + + → Ξ c ′ + π + = (4. 2 ∼ 6. 0) %, and the asymmetry parameters as ₂₂^++ ₂^+ ^+= (-0. 80 -0. 81) α Ξ cc + + → Ξ c + π + = (- 0. 80 ∼ - 0. 81) and ₂₂^++ ₂^ + ^+= (-0. 61 -0. 62). α Ξ cc + + → Ξ c ′ + π + = (- 0. 61 ∼ - 0. 62). The measurements of absolute branching fractions and asymmetry parameters by the ongoing LHCb and Belle II experiments will be helpful for further testing our numerical results and confirming the mixing angle.
Yu-Shuai Li (Wed,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: