摘要
Inspired by the recent observation of the ∑c^+c^+ by the LHCb Collaboration, we explore the "decay constants" of doubly heavy baryons in the framework of QCD sum rules. With the ∑cc,∑bb, and Ωcc,Ωbc,Ωbb baryons interpolated by three-quark operators, we calculate the correlation functions using the operator product expansion and include the contributions from operators up to dimension six. On the hadron side, we consider both contributions from the lowest-lying states with J^P 1/2^+ and from negative parity baryons with JP=1/2^-. We find that the results are stable and the contaminations from negative parity baryons are not severe. These results are ingredients for the QCD study of weak decays and other properties of doubly-heavy baryons.
Inspired by the recent observation of the ∑c^+c^+ by the LHCb Collaboration, we explore the "decay constants" of doubly heavy baryons in the framework of QCD sum rules. With the ∑cc,∑bb, and Ωcc,Ωbc,Ωbb baryons interpolated by three-quark operators, we calculate the correlation functions using the operator product expansion and include the contributions from operators up to dimension six. On the hadron side, we consider both contributions from the lowest-lying states with J^P 1/2^+ and from negative parity baryons with JP=1/2^-. We find that the results are stable and the contaminations from negative parity baryons are not severe. These results are ingredients for the QCD study of weak decays and other properties of doubly-heavy baryons.
作者
Xiao-Hui nu
Yue-Long Shen
Wei Wang
Zhen-Xing Zhao
胡晓会;沈月龙;王伟;赵振兴(INPAC,Shanghai Key Laboratory for Particle Physics and Cosmology,MOE Key Laboratory for Particle Physics, Astrophysics and Cosmology,School of Physics and Astronomy, Shanghai Jiao-Tong University;College of Information Science and Engineering, Ocean University of China)
基金
Supported by National Natural Science Foundation of China(11575110,11655002,11735010)
Natural Science Foundation of Shanghai(15DZ2272100,15ZR1423100)
Shanghai Key Laboratory for Particle Physics and Cosmology and Key Laboratory for Particle Physics,Astrophysics and Cosmology,Ministry of Education
