Phenomenology of 


                                    

Λ
b

→

Λ
c

τ


ν
¯

τ



$$ {\Lambda}_b\to {\Lambda}_c\tau {\overline{\nu}}_{\tau } $$
 using lattice QCD calculations

Datta, Alakabha; Kamali, Saeed; Meinel, Stefan; Rashed, Ahmed

doi:10.1007/jhep08(2017)131

Cited by 95 publications

(97 citation statements)

References 66 publications

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“…Consequently, a variety of processes, in addition to B → D ( * ) τ ν, are affected. Some of these, such as t → cτ + τ − decay, B c → τ ν decay [24,41], Λ b → Λ c τν τ decay [51,59], and bb /cc → τ + τ − scattering [47], have been previously studied in the literature, and probe the proposed models. Here, we suggest another class of observables: lepton non-universality in leptonic decays of the Υ and ψ vector-mesons, parameterized by the ratio R V τ / ≡ Γ(V → τ τ )/Γ(V → ).…”

Section: Discussionmentioning

confidence: 99%

Y and ψ leptonic decays as probes of solutions to the R(D (*)) puzzle

Aloni

Efrati

Grossman

et al. 2017

J. High Energ. Phys.

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Experimental measurements of the ratios R(D ( * ) ) ≡ Γ(B→D ( * ) τ ν) Γ(B→D ( * ) ν) ( = e, µ) show a 3.9σ deviation from the Standard Model prediction. In the absence of light righthanded neutrinos, a new physics contribution to b → cτ ν decays necessarily modifies also bb → τ + τ − and/or cc → τ + τ − transitions. These contributions lead to violation of lepton flavor universality in, respectively, Υ and ψ leptonic decays. We analyze the constraints resulting from measurements of the leptonic vector-meson decays on solutions to the R(D ( * ) ) puzzle. Available data from BaBar and Belle can already disfavor some of the new physics explanations of this anomaly. Further discrimination can be made by measuring Υ(1S, 2S, 3S) → τ τ in the upcoming Belle II experiment.

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Section: Discussionmentioning

confidence: 99%

Y and ψ leptonic decays as probes of solutions to the R(D (*)) puzzle

Aloni

Efrati

Grossman

et al. 2017

J. High Energ. Phys.

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“…We follow Refs. [21,27,28] and write the differential angular distribution for the three-body B 1 → B 2 lν decays in the presence of NP as…”

Section: Helicity Amplitudesmentioning

confidence: 99%

Phenomenology of Ξb→Ξcτν decays

Dutta¹

2018

Phys. Rev. D

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Deviations from the standard model prediction have been reported in various semileptonic B decays mediated via b → c charged-current interactions. In this context, we analyze corresponding semileptonic baryon decays Ξ b → Ξ c τν using the helicity formalism. We report numerical results on various observables such as the decay rate, ratio of branching ratios, lepton-side forward-backward asymmetry, longitudinal polarization fraction of the charged lepton, and the convexity parameter for this decay mode using results from the relativistic quark model. We also provide an estimate of the new physics effect on these observables under various new physics scenarios.

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“…SM predictions World averages Deviation RD = B(B → Dτ ν)/B(B → Dlν) 0.299 ± 0.003 [4][5][6][7] 0.340 ± 0.027 ± 0.013 [13][14][15][16] 1.4σ RD * = B(B → D * τ ν)/B(B → D * lν) 0.258 ± 0.005 [8][9][10][11] 0.295 ± 0.011 ± 0.008 [13][14][15][16][17][18][19][20][21][22] 2.5σ The clear disagreements between the SM predictions and the experimental measurements strongly indicate towards possible new physics. Several new physics scenarios are being investigated within model dependent and model independent frameworks [23][24][25][26][27][28][29][30][31][32][33][34][35][36][37][38][39]. Similarly, implications of R D ( * ) anomalies on similar decay modes have been studied as well.…”

Section: Observablesmentioning

confidence: 99%

Implication of RD() anomalies on semileptonic decays of Σb and
Rajeev
¹
,
Dutta
²
,
Kumbhakar
³

2019
Phys. Rev. D*
15
0
8
0
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The flavor changing decays of heavy bottom quarks to the corresponding lighter quarks (u, c and s) in various B-meson decays via charged current and neutral current semileptonic transitions have emerged as promising candidates to explore the physics beyond the standard model. Experimentally the lepton flavor universality violation in b → (c, u) l ν and b → s l + l − transitions have been reported to a higher precision. The measurements of the lepton flavor violating ratios such as R D ( * ) , R J/Ψ and R K ( * ) are observed to deviate from the standard model expectations at the level of 1.4σ, 2.5σ, 1.5σ, 2.4σ and 2.2σ respectively. Motivated by these anomalies, we investigate the lepton flavor universality violation in Σ b → Σclν and Ω b → Ωclν decays. We follow a model independent effective field theory formalism and study the implications of R D ( * ) anomalies on Σ b → Σcτ ν and Ω b → Ωcτ ν decay modes. We give predictions of various physical observables such as the ratio of branching ratios, total differential decay rate, forward-backward asymmetry, lepton side polarization fraction and convexity parameter within the standard model and within various new physics scenarios.

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Phenomenology of Λ b → Λ c τ ν ¯ τ $$ {\Lambda}_b\to {\Lambda}_c\tau {\overline{\nu}}_{\tau } $$ using lattice QCD calculations

Cited by 95 publications

References 66 publications

Y and ψ leptonic decays as probes of solutions to the R(D (*)) puzzle

Y and ψ leptonic decays as probes of solutions to the R(D (*)) puzzle

Phenomenology of Ξb→Ξcτν decays

Implication of RD() anomalies on semileptonic decays of Σb and
Rajeev
¹
,
Dutta
²
,
Kumbhakar
³

2019
Phys. Rev. D*
15
0
8
0
View full text Add to dashboard Cite

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Phenomenology of Λ b → Λ c τ ν ¯ τ $$ {\Lambda}_b\to {\Lambda}_c\tau {\overline{\nu}}_{\tau } $$ using lattice QCD calculations

Cited by 95 publications

References 66 publications

Y and ψ leptonic decays as probes of solutions to the R(D (*)) puzzle

Y and ψ leptonic decays as probes of solutions to the R(D (*)) puzzle

Phenomenology of Ξb→Ξcτν decays

Implication of RD(*) anomalies on semileptonic decays of Σb and Rajeev1, Dutta2, Kumbhakar3 2019Phys. Rev. D15080View full textAdd to dashboardCite

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Implication of RD() anomalies on semileptonic decays of Σb and
Rajeev
¹
,
Dutta
²
,
Kumbhakar
³

2019
Phys. Rev. D*
15
0
8
0
View full text Add to dashboard Cite