Topological diagram analysis of charmed baryon decays to baryon-vector meson final states requires five parameters after applying the Korner-Pati-Woo theorem and yields branching fraction predictions consistent with existing data.
Vector meson-baryon strong coupling contants in light cone QCD sum rules
4 Pith papers cite this work. Polarity classification is still indexing.
abstract
Using the most general form of the interpolating current of the baryons, the strong coupling constants of the light vector mesons with the octet baryons are calculated within the light cone QCD sum rules. The SU(3)_f symmetry breaking effects are taken into account in the calculations. It is shown that each of the electric and magnetic coupling constants can be described in terms of three universal functions. A detailed comparison of the results of this work on aforementioned couplings with the existing theoretical results is presented.
years
2026 4verdicts
UNVERDICTED 4representative citing papers
Hybrid star EOS constructed from QCDSR couplings in RMF hadronic model and bag/NJL quark models with Gibbs/Maxwell transitions yields mass-radius and tidal deformability predictions.
Branching ratios for hyperon semi-invisible decays (hadronic ~10^{-5}, radiative <10^{-7}) are calculated with sizable one-loop corrections using effective Lagrangians.
Rescattering enhances the anti-D0 Lambda branching fraction by two orders of magnitude and produces large direct CP asymmetries (0.28 and -0.14) in Lambda_b to Lambda D channels.
citing papers explorer
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Topological Diagram Analysis of Charmed Baryon Decays with Vector Mesons
Topological diagram analysis of charmed baryon decays to baryon-vector meson final states requires five parameters after applying the Korner-Pati-Woo theorem and yields branching fraction predictions consistent with existing data.
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Semi-invisible Hyperon Decays in the Effective Lagrangian Approach
Branching ratios for hyperon semi-invisible decays (hadronic ~10^{-5}, radiative <10^{-7}) are calculated with sizable one-loop corrections using effective Lagrangians.
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Study of $\Lambda^0_b \to \Lambda D$ decays with the rescattering mechanism
Rescattering enhances the anti-D0 Lambda branching fraction by two orders of magnitude and produces large direct CP asymmetries (0.28 and -0.14) in Lambda_b to Lambda D channels.