Heavy Quark Effective Theory at Large Orders in 1/m
Abstract
The existing derivations of a heavy quark effective theory (HQET) are analyzed beyond the next-to-leading order in 1/m. With one exception they are found to be incorrect. The problem is a wrong normalization of the heavy quark field in the effective theory. We argue that the correct effective theory should be given by a Foldy--Wouthuysen type field transformation to all orders in 1/m. The renormalization of the resulting Lagrangian to order 1/m2 is performed allowing for inclusion of effects arising through vacuum polarization. Our results for the anomalous dimensions disagree with the existing ones. Some applications are considered.
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