The Isgur-Wise function in a relativistic model for q Q system
Abstract
We use the Dirac equation with a ``(asymptotically free) Coulomb + (Lorentz scalar) linear '' potential to estimate the light quark wavefunction for q Q mesons in the limit mQ ∞. We use these wavefunctions to calculate the Isgur-Wise function (v.v ) for orbital and radial ground states in the phenomenologically interesting range 1≤ v.v ≤ 4. We find a simple expression for the zero-recoil slope, (1) =-1/2- ε2 <rq2>/3, where ε is the energy eigenvalue of the light quark, which can be identified with the parameter of the Heavy Quark Effective Theory. This result implies an upper bound of -1/2 for the slope (1). Also, because for a very light quark q (q=u, d) the size <rq2> of the meson is determined mainly by the ``confining'' term in the potential (γ σ r), the shape of u,d(v.v ) is seen to be mostly sensitive to the dimensionless ratio u,d2/σ. We present results for the ranges of parameters 150 MeV < u,d <600 MeV (s ≈ u,d+100 MeV), 0.14 GeV2 ≤ σ ≤ 0.25 GeV2 and light quark masses mu, md ≈ 0, ms=175 MeV and compare to existing experimental data and other theoretical estimates. Fits to the data give: u,d2/σ =4.8 1.7 , -u,d(1)=2.4 0.7 and Vcb τB1.48 ps=0.050 0.008 [ARGUS '93]; u,d2/σ = 3.4 1.8, -u,d(1)=1.8 0.7 and Vcb τB1.48 ps=0.043 0.008 [CLEO '93]; $u,d2/
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