CP violation in multibody B decays from QCD factorization

Klein, Rebecca; Mannel, Thomas; Virto, Javier; Vos, Kimberley

doi:10.1007/jhep10(2017)117

Cited by 59 publications

(54 citation statements)

References 61 publications

(82 reference statements)

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“…[7] in terms of B-meson DAs, and complementary to the derivations from dispersion theory [10], and to the calculations at large k 2 [11]. The form factor F t obtained here, while not contributing to the semileptonic B → ππ ν rate in the massless lepton approximation, plays an important role in the factorization formula for nonleptonic B → πππ decays [12][13][14]. Further improvements of the sum rules presented here and in Refs.…”

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confidence: 64%

Timelike-helicity B→ππ form factor from light-cone sum rules with dipion distribution amplitudes

2017

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We complete the set of QCD light-cone sum rules for B → ππ transition form factors, deriving a new sum rule for the timelike-helicity form factor F t in terms of dipion distribution amplitudes. This sum rule, in the leading twist-two approximation, is directly related to the pion vector form factor. Employing a relation between F t and other B → ππ form factors, we obtain also the longitudinal-helicity form factor F 0 . In this way, all four (axial-)vector B → ππ form factors are predicted from light-cone sum rules with dipion distribution amplitudes. These results are valid for small dipion masses with large momentum.

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confidence: 64%

Timelike-helicity B→ππ form factor from light-cone sum rules with dipion distribution amplitudes

2017

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“…A dedicated programme has emerged in recent years to study ππ [10,[24][25][26][27][28][29] and Kπ [30][31][32][33] final states beyond a simple resonance ansatz. LCSR analyses of B → P 1 P 2 form factors require ongoing updates [34,35] by other authors to improve our understanding of the semileptonic processes as well as purely hadronic multi-body B decays [36][37][38][39][40][41][42].…”

Section: Introductionmentioning

confidence: 99%

B →P and B →V form factors from B-meson light-cone sum rules beyond leading twist

Gubernari

Kokulu

Dyk

2019

J. High Energ. Phys.

197

251

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We provide results for the full set of form factors describing semileptonic Bmeson transitions to pseudoscalar mesons π, K,D and vector mesons ρ, K * ,D * . Our results are obtained within the framework of QCD Light-Cone Sum Rules with B-meson distribution amplitudes. We recalculate and confirm the results for the leading-twist twoparticle contributions in the literature. Furthermore, we calculate and provide new expressions for the two-particle contributions up to twist four. Following new developments for the three-particle distribution amplitudes, we calculate and provide new results for the complete set of three-particle contributions up to twist four. The form factors are computed numerically at several phase space points using up-to-date input parameters, including correlations across phase space points and form factors. We use a model ansatz for all contributing B-meson distribution amplitudes that is self-consistent up to twistfour accuracy. We find that the higher-twist two-particle contributions have a substantial impact on the results, and dominate over the three-particle contributions. Our numerical results, including correlations, are provided as machine-readable ancillary files. We discuss the qualitative phenomenological impact of our results on the present b anomalies.

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“…While we will focus on the application to the semileptonic flavour-changing neutral-current decays, this is not the only case to which the results of this article apply. Analogously to nonleptonic decays of the type B → K * M where factorization in the heavy-quark limit reduces the amplitudes to simpler objects including B → K * form factors [28,29], the three body non-leptonic decays such as B → Kππ are also reducible to B → Kπ form factors in certain regions of phase space [30][31][32]. Thus the results in this are also needed to compute predictions for non-leptonic three-body decays.…”

Section: Introductionmentioning

confidence: 99%

Light-cone sum rules for B → K π form factors and applications to rare decays

Descotes-Genon

Khodjamirian

Virto

2019

J. High Energ. Phys.

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We derive a set of light-cone sum rules relating the hadronic form factors relevant for B → Kπ + − decays to the B-meson light-cone distribution amplitudes (LCDAs). We obtain the sum rule relations for all B → Kπ form factors of (axial)vector and (pseudo)tensor b → s currents with a P -wave Kπ system. Our results reduce to the known light-cone sum rules for B → K * form factors in the limit of a single narrow-width resonance. We update the operator-product expansion for the underlying correlation function by including a more complete set of B-meson LCDAs with higher twists, and produce numerical results for all B → K * form factors in the narrow-width limit. We then use the new sum rules to estimate the effect of a non-vanishing K * width in B → K * transitions, and find that this effect is universal and increases the factorizable part of the rate of B → K * X decays by a factor of 20%. This effect, by itself, goes in the direction of increasing the current tension in the differential B → K * µµ branching fractions. We also discuss B → Kπ transitions outside the K * window, and explain how measurements of B → Kπ observables above the K * region can be used to further constrain the B → K * form factors.

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CP violation in multibody B decays from QCD factorization

Cited by 59 publications

References 61 publications

Timelike-helicity B→ππ form factor from light-cone sum rules with dipion distribution amplitudes

Timelike-helicity B→ππ form factor from light-cone sum rules with dipion distribution amplitudes

B →P and B →V form factors from B-meson light-cone sum rules beyond leading twist

Light-cone sum rules for B → K π form factors and applications to rare decays

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