Saved in:
| Main Authors: | , , |
|---|---|
| Format: | Preprint |
| Published: |
2024
|
| Subjects: | |
| Online Access: | https://arxiv.org/abs/2501.00268 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
Table of Contents:
- Inspired by the latest experimental progress, we systematically study the OZI-allowed two-body strong decay properties of $1P$-, $1D$-, $2S$- and $2P$-wave $Λ_c$ baryons within the $j $-$j$ coupling scheme in the framework of the quark pair creation model. The calculations indicate that: (i) Taking the observed states $Λ_c(2595)^+$ and $Λ_c(2625)^+$ as the $1P$-wave $λ$-modes states $Λ_c|J^P=1/2^-,1\rangle_λ$ and $Λ_c|J^P=3/2^-,1\rangle_λ$, respectively, we can reproduce the experimental data well in theory. (ii) Combining with the measured mass and the decay properties of $Λ_c(2860)^+$, this excited state can be explained as $1D$-wave $λ$-mode state $Λ_c|J^P=3/2^+,1\rangle_{λλ}$. (iii) The newly observed state $Λ_c(2910)^+$ may be assigned as one of the $1P$-wave $ρ$-mode states $Λ_c|J^P=3/2^-,2\rangle_ρ$ or $Λ_c|J^P=5/2^-,2\rangle_ρ$. Meanwhile, we notice that the partial decay width ratio between $Σ_cπ$ and $Σ_c^*π$ for the two candidates is significantly different. Hence, experimental progress in this ratio measurement may shed light on the nature of $Λ_c(2910)^+$. (iv) According to the properties of $Λ_c(2765)^+$, we find that the $2S$-wave $λ$-mode state $Λ_{c1}|J^P=1/2^+,0\rangle_λ$ may be a potential candidate. (v) The $2P$-wave $λ$-mode state $Λ_{c1}|J^P=3/2^-,1\rangle_λ$ is mostly likely to be a good assignment of the controversial state $Λ_c(2940)^+$. Both the total decay width and partial decay ratio between $pD^0$ and $Σ_cπ$ are in good agreement with the observations. (vi) In addition, for the missing $Λ_c$ excitations, we obtain their strong decay properties and hope that's useful for future experimental exploration.