Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2001-05-23
Phys.Lett. B520 (2001) 25-32
Physics
High Energy Physics
High Energy Physics - Phenomenology
16 pages, Latex
Scientific paper
10.1016/S0370-2693(01)00943-1
We show that the sum rule recently proved by Uraltsev in the heavy quark limit of QCD holds in relativistic quark models \`a la Bakamjian and Thomas, that were already shown to satisfy Isgur-Wise scaling and Bjorken sum rule. This new sum rule provides a {\it rationale} for the lower bound of the slope of the elastic IW function $\rho^2 \geq {3 \over 4}$ obtained within the BT formalism some years ago. Uraltsev sum rule suggests an inequality $|\tau_{3/2}(1)| > |\tau_{1/2}(1)|$. This difference is interpreted in the BT formalism as due to the Wigner rotation of the light quark spin, independently of a possible LS force. In BT models, the sum rule convergence is very fast, the $n = 0$ state giving the essential contribution in most of the phenomenological potential models. We underline that there is a serious problem, in the heavy quark limit of QCD, between theory and experiment for the decays $B \to D^*_{0,1}(broad) \ell \nu$, independently of any model calculation.
Oliver L. L.
Pene Olivier
Raynal Jean-Claude
Yaouanc Alain Le
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