English

Evolution equation for the higher-twist B-meson distribution amplitude

High Energy Physics - Phenomenology 2015-11-04 v2 High Energy Physics - Theory

Abstract

We find that the evolution equation for the three-particle quark-gluon B-meson light-cone distribution amplitude (DA) of subleading twist is completely integrable in the large NcN_c limit and can be solved exactly. The lowest anomalous dimension is separated from the remaining, continuous, spectrum by a finite gap. The corresponding eigenfunction coincides with the contribution of quark-gluon states to the two-particle DA ϕ(ω)\phi_-(\omega) so that the evolution equation for the latter is the same as for the leading-twist DA ϕ+(ω)\phi_+(\omega) up to a constant shift in the anomalous dimension. Thus, ``genuine'' three-particle states that belong to the continuous spectrum effectively decouple from ϕ(ω)\phi_-(\omega) to the leading-order accuracy. In turn, the scale dependence of the full three-particle DA turns out to be nontrivial so that the contribution with the lowest anomalous dimension does not become leading at any scale. The results are illustrated on a simple model that can be used in studies of 1/mb1/m_b corrections to heavy-meson decays in the framework of QCD factorization or light-cone sum rules.

Keywords

Cite

@article{arxiv.1507.03445,
  title  = {Evolution equation for the higher-twist B-meson distribution amplitude},
  author = {V. M. Braun and A. N. Manashov and N. Offen},
  journal= {arXiv preprint arXiv:1507.03445},
  year   = {2015}
}

Comments

Extended version, includes new results on the large momentum limit and a detailed study of the evolution effects in a simple model

R2 v1 2026-06-22T10:10:45.050Z