English

Structure of Mass Gap between Two Spin Multiplets

High Energy Physics - Phenomenology 2008-11-26 v2

Abstract

Studying our semirelativistic potential model and the numerical results, which succeeds in predicting and reproducing recently discovered higher resonances of DD, DsD_s, BB, and BsB_s, we find a simple expression for the mass gap between two spin multiplets of heavy-light mesons, (0,1)(0^-,1^-) and (0+,1+)(0^+,1^+). The mass gap between chiral partners defined by ΔM=M(0+)M(0)\Delta M=M(0^+)-M(0^-) and/or M(1+)M(1)M(1^+)-M(1^-) is given by ΔM=M(0+)M(0)=M(1+)M(1)ΛQmq\Delta M=M(0^+)-M(0^-)=M(1^+)-M(1^-)\approx \Lambda_{\rm Q}-m_q in the limit of heavy quark symmetry, and including 1/mQ1/m_Q corrections, we have ΔMΛQmq+(1.28×105+4.26×102mq)/mQ\Delta M\approx \Lambda_{\rm Q}-m_q+(1.28\times 10^{5}+4.26\times 10^{2}\cdot m_q)/m_Q with ΛQ300\Lambda_{\rm Q}\approx 300 MeV, a light quark mass mqm_q, and a heavy quark mass mQm_Q. This equation holds both for DD and DsD_s heavy mesons. Our model calculations for the BB and BsB_s also follow this formula.

Keywords

Cite

@article{arxiv.0710.0325,
  title  = {Structure of Mass Gap between Two Spin Multiplets},
  author = {Takayuki Matsuki and Toshiyuki Morii and Kazutaka Sudoh},
  journal= {arXiv preprint arXiv:0710.0325},
  year   = {2008}
}

Comments

6 pages, 2 figures

R2 v1 2026-06-21T09:24:43.162Z