Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2001-08-29
Phys.Lett.B520:115-123,2001
Physics
High Energy Physics
High Energy Physics - Phenomenology
9 pages in Latex file including 1 table and 2 Eps figures
Scientific paper
10.1016/S0370-2693(01)01116-9
The pseudoscalar sum rules of the heavy-light quark systems are used for extracting simultaneously the c,b quark masses and the decay constants f_D_(s),f_B_(s) of the D_(s),B_(s) mesons. To order alpha_s^2, one obtains the running quark masses: m_c(m_c)=(1.10 \pm 0.04) GeV, m_b(m_b)=(4.05\pm 0.06) GeV, the perturbative pole masses: M_c=(1.46\pm 0.04) GeV, M_b=(4.69\pm 0.06) GeV, and the decay constants: f_D=(205\pm 20) MeV, f_B=(203\pm 23) MeV and f_D_s=(235\pm 24) MeV, f_B_s=(236\pm 30) MeV, in the normalization where f_\pi= 130.56 MeV. The fitted values of the pole and running masses satisfy quite well their three-loop perturbative relation. The value f_D = f_B confirms earlier findings from the sum rule that the 1/M_P^1/2 heavy quark symmetry scaling law is affected by large 1/M_P corrections.
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