English

From $\Xi_b \to \Lambda_b \pi$ to $\Xi_c \to \Lambda_c \pi$

High Energy Physics - Phenomenology 2016-05-04 v2 High Energy Physics - Experiment

Abstract

Using a successful framework for describing S-wave hadronic decays of light hyperons induced by a subprocess su(uˉd)s \to u (\bar u d), we presented recently a model-independent calculation of the amplitude and branching ratio for ΞbΛbπ\Xi^-_b \to \Lambda_b \pi^- in agreement with a LHCb measurement. The same quark process contributes to Ξc0Λcπ\Xi^0_c \to \Lambda_c \pi^-, while a second term from the subprocess cscdcs \to cd has been related by Voloshin to differences among total decay rates of charmed baryons. We calculate this term and find it to have a magnitude approximately equal to the su(uˉd)s \to u (\bar u d) term. We argue for a negligible relative phase between these two contributions, potentially due to final state interactions. However, we do not know whether they interfere destructively or constructively. For constructive interference one predicts B(Ξc0Λcπ)=(1.94±0.70)×103{\cal B}(\Xi_c^0 \to \Lambda_c \pi^-) = (1.94 \pm 0.70)\times 10^{-3} and B(Ξc+Λcπ0)=(3.86±1.35)×103{\cal B}(\Xi_c^+ \to \Lambda_c \pi^0) = (3.86 \pm 1.35)\times 10^{-3}. For destructive interference, the respective branching fractions are expected to be less than about 10410^{-4} and 2×1042 \times 10^{-4}.

Keywords

Cite

@article{arxiv.1603.07309,
  title  = {From $\Xi_b \to \Lambda_b \pi$ to $\Xi_c \to \Lambda_c \pi$},
  author = {Michael Gronau and Jonathan L. Rosner},
  journal= {arXiv preprint arXiv:1603.07309},
  year   = {2016}
}

Comments

To be published in Physics Letters B

R2 v1 2026-06-22T13:17:20.340Z