A. S. Kronfeld | Researchain

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Featured researches published by A. S. Kronfeld.

European Physical Journal C | 2015

Physics at the e+ e- Linear Collider

G. Moortgat-Pick; Howard Baer; M. Battaglia; G. Belanger; Keisuke Fujii; J. Kalinowski; S. Heinemeyer; Y. Kiyo; Keith A. Olive; F. Simon; Peter Uwer; D. Wackeroth; P.M. Zerwas; A. Arbey; M. Asano; J. Bagger; P. Bechtle; A. Bharucha; J. Brau; F. Brümmer; S.Y. Choi; A. Denner; K. Desch; Stefan Dittmaier; Ulrich Ellwanger; Christoph Englert; A. Freitas; I. Ginzburg; S. Godfrey; Nicolas Greiner

A comprehensive review of physics at an

Physical Review Letters | 2012

Refining New-Physics Searches inB→Dτνwith Lattice QCD

Jon A. Bailey; A. Bazavov; C. Bernard; C. M. Bouchard; Carleton E. DeTar; Daping Du; A.X. El-Khadra; J. Foley; E. D. Freeland; E. Gamiz; Steven Gottlieb; Urs M. Heller; Jongjeong Kim; A. S. Kronfeld; J. Laiho; L. Levkova; P.B. Mackenzie; Y. Meurice; E. T. Neil; M.B. Oktay; Si-Wei Qiu; J.N. Simone; R. Sugar; D. Toussaint; R. S. Van De Water; Ran Zhou

Physical Review D | 2014

Update of

Jon A. Bailey; R. S. Van De Water; A. S. Kronfeld; P.B. Mackenzie; J.N. Simone; Si-Wei Qiu; E. T. Neil; J. Laiho; D. Toussaint; L. Levkova; Daping Du; A.X. El-Khadra; E. D. Freeland; A. Bazavov; Urs M. Heller; Steven Gottlieb; Ran Zhou; C. Bernard; Carleton DeTar; J. Foley; R. Sugar; E. Gamiz; C. M. Bouchard

e^+e^-

arXiv: High Energy Physics - Lattice | 2012

|V_{cb}|

Ran Zhou; Jon A. Bailey; A. Bazavov; A. X. El-Khadra; Steven Gottlieb; R. Jain; A. S. Kronfeld; Ruth S. Van de Water

arXiv: High Energy Physics - Lattice | 2012

from the

Carleton DeTar; A. S. Kronfeld; Song-haeng Lee; L. Levkova; Daniel Mohler; J.N. Simone

e+e- linear collider in the energy range of

Physical Review Letters | 2018

\bar{B}\to D^*\ell\bar{\nu}

Bipasha Chakraborty; C. T. H. Davies; Carleton DeTar; A. X. El-Khadra; E. Gámiz; Steven Gottlieb; D. Hatton; Jonna Koponen; A. S. Kronfeld; J. Laiho; G. P. Lepage; Yuzhi Liu; P.B. Mackenzie; Craig McNeile; E. T. Neil; J.N. Simone; R. Sugar; D. Toussaint; R. S. Van De Water; A. Vaquero

arXiv: High Energy Physics - Lattice | 2015

form factor at zero recoil with three-flavor lattice QCD

C. M. Bouchard; E. D. Freeland; C. Bernard; Chia Cheng Chang; A. X. El-Khadra; M. Elvira Gámiz; A. S. Kronfeld; J. Laiho; Ruth S. Van de Water

sqrt{s}=92

Physical Review D | 2014

Form factors for B to Kll semileptonic decay from three-flavor lattice QCD

Jon A. Bailey; A. Bazavov; C. Bernard; C. M. Bouchard; Carleton E. DeTar; Daping Du; A.X. El-Khadra; J. Foley; E. D. Freeland; E. Gamiz; Steven Gottlieb; Urs M. Heller; A. S. Kronfeld; J. Laiho; L. Levkova; P.B. Mackenzie; E. T. Neil; Si-Wei Qiu; J.N. Simone; R. Sugar; D. Toussaint; R. S. Van De Water; Ran Zhou

arXiv: High Energy Physics - Lattice | 2004

Charmonium mass splittings at the physical point

J.N. Simone; Christopher Alan Aubin; C. Bernard; Carleton E. DeTar; M. Di Pierro; A.X. El-Khadra; Steven Gottlieb; Eric Brittain Gregory; Urs M. Heller; J.E. Hetrick; A. S. Kronfeld; P.B. Mackenzie; D. Menscher; M. Nobes; M. Okamoto; M.B. Oktay; James C. Osborn; R. Sugar; D. Toussaint; Howard D. Trottier; Fermilab Lattice; Milc; Hpqcd Collaborations

s=92xa0GeV–3xa0TeV is presented in view of recent and expected LHC results, experiments from low-energy as well as astroparticle physics. The report focusses in particular on Higgs-boson, top-quark and electroweak precision physics, but also discusses several models of beyond the standard model physics such as supersymmetry, little Higgs models and extra gauge bosons. The connection to cosmology has been analysed as well.

Nuclear Physics B - Proceedings Supplements | 2000

Strong-Isospin-Breaking Correction to the Muon Anomalous Magnetic Moment from Lattice QCD at the Physical Point

A. X. El-Khadra; Steven Gottlieb; A. S. Kronfeld; P.B. Mackenzie; J.N. Simone

The semileptonic decay channel B→Dτν is sensitive to the presence of a scalar current, such as that mediated by a charged-Higgs boson. Recently, the BABAR experiment reported the first observation of the exclusive semileptonic decay B→Dτ(-)ν, finding an approximately 2σ disagreement with the standard-model prediction for the ratio R(D)=BR(B→Dτν)/BR(B→Dℓν), where ℓ = e,μ. We compute this ratio of branching fractions using hadronic form factors computed in unquenched lattice QCD and obtain R(D)=0.316(12)(7), where the errors are statistical and total systematic, respectively. This result is the first standard-model calculation of R(D) from ab initio full QCD. Its error is smaller than that of previous estimates, primarily due to the reduced uncertainty in the scalar form factor f(0)(q(2)). Our determination of R(D) is approximately 1σ higher than previous estimates and, thus, reduces the tension with experiment. We also compute R(D) in models with electrically charged scalar exchange, such as the type-II two-Higgs-doublet model. Once again, our result is consistent with, but approximately 1σ higher than, previous estimates for phenomenologically relevant values of the scalar coupling in the type-II model. As a by-product of our calculation, we also present the standard-model prediction for the longitudinal-polarization ratio P(L)(D)=0.325(4)(3).

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