Semileptonic transitions: B(s) → π(K); Ds → K; D → π,K; and K → π

Semileptonic transitions: B(s) → π(K); Ds → K; D → π,K; and K → π

Continuum Schwinger function methods for the strong-interaction bound-state problem are used to arrive at a unified set of parameter-free predictions for the semileptonic K→π, D→π,K and Ds→K, B(s)→π(K) transition form factors and the associated branching fractions. The form factors are a leading sou...

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Bibliographic Details
Main Authors: Zhao-Qian Yao, Daniele Binosi, Zhu-Fang Cui, Craig D. Roberts
Format: Article
Language:English
Published: Elsevier 2022-01-01
Series:Physics Letters B
Subjects:
Heavy-quark mesons
Semileptonic decays
CKM matrix elements
Emergence of hadron mass
Nambu-Goldstone bosons
Schwinger function methods
Online Access:http://www.sciencedirect.com/science/article/pii/S0370269321007334
Description
Summary:Continuum Schwinger function methods for the strong-interaction bound-state problem are used to arrive at a unified set of parameter-free predictions for the semileptonic K→π, D→π,K and Ds→K, B(s)→π(K) transition form factors and the associated branching fractions. The form factors are a leading source of uncertainty in all such calculations: our results agree quantitatively with available data and provide benchmarks for the hitherto unmeasured Ds→K0, B¯s→K+ form factors. The analysis delivers a value of |Vcs|=0.974(10) and also predictions for all branching fraction ratios in the pseudoscalar meson sector that can be used to test lepton flavour universality. Quantitative comparisons are provided between extant theory and the recent measurement of BBs0→K−μ+νμ. Here, further, refined measurements would be useful in moving toward a more accurate value of |Vub|.
ISSN:0370-2693

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