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Magic mixing angles for doubly heavy baryons

High Energy Physics - Phenomenology 2022-01-26 v3 High Energy Physics - Experiment Nuclear Theory

Abstract

We study the so-called magic mixing angles for doubly heavy baryons. Defining that a magic mixing angle rotates states with definite 2S+1(lλ)J^{2S+1}(l_\lambda)_J to make them heavy-quark symmetric states, we derive the magic mixing angle only in the case Lρ=0L_\rho=0 between the heavy quark symmetric states with quantum numbers (J,j)\left(J, j_\ell\right) and the states with (J,sq+jρ)=(J,{4lλ/2lλ})\left(J, s_q+j_\rho\right)=\left(J, \{^4l_\lambda/^2l_\lambda\}\right) for a doubly heavy baryon in the standard ρλ\rho-\lambda configuration, where j=lλ+sq\vec j_\ell=\vec l_\lambda+\vec s_q, sρ=sQ1+sQ2\vec s_\rho=\vec s_{Q1}+\vec s_{Q2}, and jρ=sρ+Lρ\vec j_\rho=\vec s_\rho+\vec L_\rho. We discuss how this mixing angle affects model building for a doubly heavy baryon.

Keywords

Cite

@article{arxiv.2108.05642,
  title  = {Magic mixing angles for doubly heavy baryons},
  author = {Takayuki Matsuki and Dian-Yong Chen and Xiang Liu and Qi-Fang Lü},
  journal= {arXiv preprint arXiv:2108.05642},
  year   = {2022}
}

Comments

6 pages, 1 figure

R2 v1 2026-06-24T05:03:32.984Z