D and D_s in mass loaded flux tube

Hong-Yun Shan; Ailin Zhang

arXiv:0805.4764·hep-ph·May 13, 2015

D and D_s in mass loaded flux tube

Hong-Yun Shan, Ailin Zhang

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TL;DR

This paper models heavy-light mesons using a mass loaded flux tube approach, successfully predicting charmed and strange meson spectra and aligning well with recent experimental observations.

Contribution

It introduces a mass loaded flux tube model for heavy-light hadrons and provides systematic predictions for D and D_s meson spectra, including new mass estimates.

Findings

01

D and D_s mesons in 1D multiplets are predicted to have lower masses.

02

Predicted masses for certain D_s states match recent experimental data.

03

The model supports the good diquark-antiquark degeneracy hypothesis in heavy-light systems.

Abstract

Heavy-light hadrons are studied in a mass loaded flux tube model. The study indicates that the dynamics of mesons and baryons containing a $c$ quark is well described by the mass loaded flux tube. The hypothesis of good diquark-antiquark degeneracy is found reasonable in heavy-light quark systems. The spectrum of charmed ( $D$ ) and charmed strange ( $D_{s}$ ) mesons is systematically computed. $D$ and $D_{s}$ in 1D multiplets are predicted to have lower masses in comparison with other theoretical predictions. The predicted masses of the $1^{-} (1^{3} D_{1})$ and the $3^{-} (1^{3} D_{3})$ $D_{s}$ agree well with those of recently observed $D_{s 1} (2700)^{\pm}$ and $D_{s J} (2860)$ , respectively.

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