Nature of charmed strange baryons c(3055) and c(3080)

Abstract

The hadronic decay widths and some ratios of branching fractions of the newly observed charmed strange baryons, c(3055)0, c(3055)+ and c(3080)+ are calculated in a 3P0 model. In the calculation, they are considered as 34 kinds of D-wave charmed strange baryons. Among these assignments, c(3055)+ is very possibly a JP=5 2+ c3(52+) or c32(52+), where c(3055)+ has the total decay width =10.1 MeV and =7.6 MeV. The predicted ratios (c(3055)+ D+ )/ (c(3055)+ c++K-)=3.39. c(3055)+ is also very possibly a JP=7 2+ c3(72+) or c32(72+). In these two assignments, c(3055)+ has the total decay width =9.7 MeV and =6.3 MeV. The predicted ratios (c(3055)+ D+ )/ (c(3055)+ c++K-)=5.91~or~6.04. As a isospin partner of c(3055)+, c(3055)0 is also very possibly a JP=5 2+ c3(52+) or c32(52+), where c(3055)0 has the total decay width =10.9 MeV and =7.0 MeV. The predicted ratios (c(3055)0 D0 )/ (c(3055)0 c+K-)=4.24~or~4.20. c(3055)0 is also very possibly a JP=7 2+ c3(72+) or c32(72+). In these assignments, c(3055)0 has the total decay width =10.3 MeV and =7.1 MeV. The predicted ratios (c(3055)0 D0 )/ (c(3055)0 c+K-)=7.47~or~7.56. The results agree well with recent experimental data from Belle. c(3080)+ seems impossible to be identified with a D-wave charmed strange baryon.