Measurement of the branching ratio of $\bar{B}^0 \rightarrow D^{*+} \tau^- \bar{\nu}_{\tau}$ relative to $\bar{B}^0 \rightarrow D^{*+} \ell^- \bar{\nu}_{\ell}$ decays with a semileptonic tagging method

A. Bozek; A. Chen; A. Garmash; A. Ishikawa; A. J. Schwartz; A. M. Bakich; A. Moll; A. Rostomyan; A. Vinokurova; A. Zupanc

arxiv: 1607.07923 · v3 · pith:LBKFUKMPnew · submitted 2016-07-27 · ✦ hep-ex

Measurement of the branching ratio of bar{B}⁰ rightarrow D^(+) τ^- bar{ν}_(τ) relative to bar{B}⁰ rightarrow D^(+) ell^- bar{ν}_(ell) decays with a semileptonic tagging method

Y. Sato , T. Iijima , K. Adamczyk , H. Aihara , D. M. Asner , H. Atmacan , T. Aushev , R. Ayad

show 166 more authors

T. Aziz V. Babu I. Badhrees A. M. Bakich V. Bansal P. Behera V. Bhardwaj B. Bhuyan J. Biswal G. Bonvicini A. Bozek M. BraD. P. Chang V. Chekelian A. Chen B. G. Cheon K. Chilikin R. Chistov K. Cho V. Chobanova Y. Choi D. Cinabro M. Danilov N. Dash S. Di Carlo Z. DoleD. Dutta S. Eidelman D. Epifanov H. Farhat J. E. Fast T. Ferber B. G. Fulsom V. Gaur N. Gabyshev A. Garmash P. Goldenzweig B. Golob D. Greenwald K. Hara T. Hara J. Hasenbusch K. Hayasaka H. Hayashii S. Hirose T. Horiguchi W.-S. Hou K. Inami A. Ishikawa R. Itoh Y. Iwasaki I. Jaegle H. B. Jeon D. Joffe T. Julius K. H. Kang Y. Kato P. Katrenko T. Kawasaki D. Y. Kim J. B. Kim K. T. Kim M. J. Kim S. H. Kim Y. J. Kim K. Kinoshita P. KodyS. Korpar D. Kotchetkov P. Krokovny T. Kuhr R. Kumar Y.-J. Kwon J. S. Lange C. H. Li L. Li Y. Li L. Li Gioi J. Libby D. Liventsev T. Luo M. Masuda T. Matsuda D. Matvienko K. Miyabayashi H. Miyata R. Mizuk G. B. Mohanty A. Moll H. K. Moon K. R. Nakamura E. Nakano M. Nakao T. Nanut K. J. Nath Z. Natkaniec M. Nayak K. Negishi N. K. Nisar S. Nishida S. Ogawa S. Okuno S. L. Olsen Y. Onuki P. Pakhlov G. Pakhlova B. Pal C.-S. Park S. Paul T. K. Pedlar L. PesR. Pestotnik M. PetriL. E. Piilonen M. V. Purohit J. Rauch A. Rostomyan M. Rozanska Y. Sakai S. Sandilya L. Santelj V. Savinov T. SchlO. Schneider G. Schnell C. Schwanda A. J. Schwartz Y. Seino K. Senyo O. Seon M. E. Sevior V. Shebalin C. P. Shen T.-A. Shibata J.-G. Shiu B. Shwartz F. Simon E. Solovieva S. StaniM. StariJ. F. Strube T. Sumiyoshi M. Takizawa U. Tamponi F. Tenchini K. Trabelsi M. Uchida S. Uno P. Urquijo Y. Ushiroda Y. Usov C. Van Hulse G. Varner A. Vinokurova V. Vorobyev C. H. Wang M.-Z. Wang P. Wang Y. Watanabe K. M. Williams E. Won H. Yamamoto J. Yamaoka Y. Yamashita J. Yelton Y. Yook C. Z. Yuan Y. Yusa Z. P. Zhang V. Zhilich V. Zhukova V. Zhulanov A. Zupanc (The Belle collaboration)

This is my paper

classification ✦ hep-ex

keywords rightarrowmeasurementdecayspairsratiosamplesemileptonicsigma

0 comments

read the original abstract

We report a measurement of the ratio ${\cal R}(D^*) = {\cal B}(\bar{B}^0 \rightarrow D^{*+} \tau^- \bar{\nu}_{\tau})/{\cal B}(\bar{B}^0 \rightarrow D^{*+} \ell^- \bar{\nu}_{\ell})$, where $\ell$ denotes an electron or a muon. The results are based on a data sample containing $772\times10^6$ $B\bar{B}$ pairs recorded at the $\Upsilon(4S)$ resonance with the Belle detector at the KEKB $e^+ e^-$ collider. We select a sample of $B^0 \bar{B}^0$ pairs by reconstructing both $B$ mesons in semileptonic decays to $D^{*\mp} \ell^{\pm}$. We measure ${\cal R}(D^*)= 0.302 \pm 0.030({\rm stat)} \pm 0.011({\rm syst)}$, which is within $1.6 \sigma$ of the Standard Model theoretical expectation, where the standard deviation $\sigma$ includes systematic uncertainties. We use this measurement to constrain several scenarios of new physics in a model-independent approach.

This paper has not been read by Pith yet.

discussion (0)

Forward citations

Cited by 5 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

Impact of Hadronic Resonances on $B\to K^{(*)}\tau^+\tau^-$ decays
hep-ph 2026-05 unverdicted novelty 5.0

Including resonant contributions from LHCb muon data enhances standard model predictions for B to K(*) tau tau decays and makes short-distance new physics comparable to or larger than resonant effects over the full q2 range.
Flavour anomalies and (fundamental) partial compositeness
hep-ph 2019-07 unverdicted novelty 5.0

Partial compositeness in the minimal fundamental partial compositeness (MFPC) model explains B-meson flavour anomalies while also solving the SM naturalness problem.
Lepton Flavor Universality tests through angular observables of $\overline{B}\to D^{(\ast)}\ell\overline{\nu}$ decay modes
hep-ph 2019-07 unverdicted novelty 5.0

Angular observables in B→D(*)ℓν decays can distinguish Lorentz structures of new physics contributions fitted to measured R(D(*)) ratios, even when those ratios agree with the Standard Model.
$B$ anomalies and the tauphilic leptoquark model
hep-ph 2026-05 unverdicted novelty 4.0

A tauphilic leptoquark model with S1 explaining R(D(*)), ~R2 fitting B to K nu nu via right-handed coefficients, and S3 satisfying Delta m_Bs via mixing predicts subdominant negative C_VL, dominant positive C_SL, C9^L...
Lepton flavour universality in charged-current $B$ decays
hep-ex 2019-07 unverdicted novelty 3.0

LHCb measures R(D*) and R(J/ψ); combined LHCb+Belle data yield 3.1σ tension with SM in R(D) and R(D*).

Measurement of the branching ratio of bar{B}⁰ rightarrow D^(*+) τ^- bar{ν}_(τ) relative to bar{B}⁰ rightarrow D^(*+) ell^- bar{ν}_(ell) decays with a semileptonic tagging method

discussion (0)

Measurement of the branching ratio of bar{B}⁰ rightarrow D^(+) τ^- bar{ν}_(τ) relative to bar{B}⁰ rightarrow D^(+) ell^- bar{ν}_(ell) decays with a semileptonic tagging method