Predicting radiative B decays to vector mesons in holographic QCD
Ruben Sandapen, Mohammad Ahmady
TL;DR
This paper uses holographic AdS/QCD to predict observables in radiative B decays to vector mesons, addressing end-point divergence issues in the heavy quark limit, and providing new computational insights.
Contribution
It introduces a holographic QCD approach to calculate decay observables, avoiding end-point divergences in power-suppressed contributions.
Findings
End-point divergences can be avoided in calculations.
Predictions align with existing theoretical frameworks.
Method enhances computational stability in heavy quark limit.
Abstract
We predict observables in radiative B decays to vector mesons using holographic AdS/QCD Distribution Amplitudes for the vector mesons. We find that end-point divergences can be avoided when computing power-suppressed contributions in the heavy quark limit. The results reported here can be found in references [1] and [2].
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions · Black Holes and Theoretical Physics