Phenomenological Study of Heavy Hadron Lifetimes
arXiv:1807.00916 · doi:10.1007/JHEP11(2018)014
Abstract
The lifetimes of bottom and charmed hadrons are analyzed within the framework of the heavy quark expansion (HQE). Lifetime differences arise from the spectator effects such as weak $W$-annihilation and Pauli interference. Spectator effects originating from dimension-7 four-quark operators are derived. Hadronic matrix elements of four-quark operators are parameterized in a model-independent way. Using the dimension-6 bag parameters recently determined from HQET sum rules and the vacuum insertion approximation for meson matrix elements of dimension-7 operators, the calculated $B$ meson lifetime ratios $Ï(B^+)/Ï(B^0_d)=1.074$ and $Ï(B^0_s)/Ï(B^0_d)=0.996$ are in excellent agreement with experiment. Likewise, based on the quark model evaluation of baryon matrix elements, the resulting baryon lifetime ratios $Ï(Î_b^-)/Ï(Î_b^0)$, $Ï(Î_b^-)/Ï(Î_b^0)$, $Ï(Ω_b^-)/Ï(Î_b^-)$ and the $Î_b-B^0$ lifetime ratio $Ï(Î_b^0)/Ï(B^0_d)=0.955$ also agree well with the data. Contrary to the bottom hadron sector where the HQE in $1/m_b$ works well, the HQE to $1/m_c^3$ fails to give a satisfactory description of the lifetimes of both charmed mesons and charmed baryons. This calls for the subleading $1/m_Q$ corrections to spectator effects. The relevant dimension-7 spectator effects are in the right direction for explaining the large lifetime ratio of $Ï(Î_c^+)/Ï(Î_c^+)$.
41 pages, 3 figures, improved version, to appear in JHEP