介子弱衰变到重子对的隐藏奇异性

Chao-Qiang Geng, Xian-Nan Jin, Chia-Wei Liu, Xiao Yu
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引用次数: 0

摘要

我们研究重介子成重子对的弱衰变,重点是以湮灭型图为主的通道,其中短距离(SD)贡献被高度抑制。我们关注能量释放较小的衰变,以进一步确保长距离(LD)物理的主导地位。三角形图的终态相互作用不需要截止,这使得我们的数值结果非常可靠。此外,中间态的隐藏陌生化自然避免了手性抑制。预测的分支分数分别为 ${\cal B}(D_s^+ \to p\overline{n}) = (1.43 \pm 0.10 )\times 10^{-3}$ 和 ${\cal B} (B_s^0 \to \Lambda_c^+ \overline\{Lambda}_c^-) >4.7 \times 10^{-5}$。前者与实验数据 $(1.22 \pm 0.11)\times 10^{-3}$ 一致,而后者表明测量现在是可行的。利用实验上限 ${cal B} (B_s^0 \to \Lambda_c^+ overline\{Lambda}_c^-) < 8 \times 10^{-5}$,我们设定了耦合常数 $g_{D^+ \Lambda_c^+ n} < 7.5 的约束。< 7.5$.CP对称性表明$B_{sH/L}^0 \to\Lambda_c^+ \overline{Lambda}_c^-$ 是由$P/S$波支配的。这一选择规则区分了SD和LD的贡献,使得实验可以进一步检验我们对当时非微扰区域的理解。我们建议未来对 $B^0 \to \Xi_c^+\overline{Xi}_c^-$ 进行测量,以检验终态相互作用机制、预测显著的 $SU(3)_F$ 断裂效应为 ${\cal B}(B^0 \to \Xi_c^+\overline{\Xi}_c^-) / {\cal B} (B_s^0 \to \Lambda_c^+ \overline{\Lambda}_c^-) =1.4\%$, 与天真的估计值 5.3\%$ 相反。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hidden strangeness in meson weak decays to baryon pair
We study the weak decays of heavy mesons into baryon pairs, focusing on channels dominated by annihilation-type diagrams, where short-distance (SD) contributions are highly suppressed. We focus on decays with small energy release to further ensure the dominance of long-distance (LD) physics. The final state interactions of the triangular diagrams do not require a cutoff, making our numerical results reliable. Moreover, the hidden strangeness in the intermediate state naturally avoids chiral suppression. The branching fractions are predicted to be ${\cal B}(D_s^+ \to p\overline{n}) = (1.43 \pm 0.10 ) \times 10^{-3}$ and ${\cal B} (B_s^0 \to \Lambda_c^+ \overline{\Lambda}_c^-) > 4.7 \times 10^{-5}$, respectively. The former is in agreement with the experimental data of $(1.22 \pm 0.11)\times 10^{-3}$, while the latter suggests that a measurement is now feasible. Using the experimental upper bound of ${\cal B} (B_s^0 \to \Lambda_c^+ \overline{\Lambda}_c^-) < 8 \times 10^{-5}$, we set a constraint on the coupling constant $g_{D^+ \Lambda_c^+ n} < 7.5$. The CP symmetry suggests that $B_{sH/L}^0 \to \Lambda_c^+ \overline{\Lambda}_c^-$ is dominated by $P/S$ wave. This selection rule distinguishes the SD and LD contributions, allowing experiments to further test our understanding in the nonperturbative region. We propose future measurements on $B^0 \to \Xi_c^+ \overline{\Xi}_c^-$ to test final state interaction mechanisms, predicting significant $SU(3)_F$ breaking effects with ${\cal B}(B^0 \to \Xi_c^+ \overline{\Xi}_c^-) / {\cal B} (B_s^0 \to \Lambda_c^+ \overline{\Lambda}_c^-) = 1.4\%$, contrary to the naive estimate of $5.3\%$.
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