R. Zhou scite author profile

R. Zhou

4Publications

1,437Citation Statements Received

875Citation Statements Given

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Affiliations

Ministry of Transport, Fermilab, Indiana University Bloomington

Publications

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B→Dℓνform factors at nonzero recoil and|Vcb|
Bailey
¹
,
Bazavov
²
,
Bérnard
³

et al. 2015
Phys. Rev. D
287
25
362
5
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We present the first unquenched lattice-QCD calculation of the hadronic form factors for the exclusive decay B → D ν at nonzero recoil. We carry out numerical simulations on fourteen ensembles of gauge-field configurations generated with 2+1 flavors of asqtad-improved staggered sea quarks. The ensembles encompass a wide range of lattice spacings (approximately 0.045 to 0.12 fm) and ratios of light (up and down) to strange sea-quark masses ranging from 0.05 to 0.4.For the b and c valence quarks we use improved Wilson fermions with the Fermilab interpretation, while for the light valence quarks we use asqtad-improved staggered fermions. We extrapolate our results to the physical point using rooted staggered heavy-light meson chiral perturbation theory.We then parameterize the form factors and extend them to the full kinematic range using modelindependent functions based on analyticity and unitarity. We present our final results for f + (q 2 ) and f 0 (q 2 ), including statistical and systematic errors, as coefficients of a series in the variable z and the covariance matrix between these coefficients. We then fit the lattice form-factor data jointly with the experimentally measured differential decay rate from BaBar to determine the CKM matrix element, |V cb | = (39.6 ± 1.7 QCD+exp ± 0.2 QED ) × 10 −3 . As a byproduct of the joint fit we obtain the form factors with improved precision at large recoil. Finally, we use them to update our calculation of the ratio R(D) in the Standard Model, which yields R(D) = 0.299(11).

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Lattice QCD ensembles with four flavors of highly improved staggered quarks

et al. 2013

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We present results from our simulations of quantum chromodynamics (QCD) with four flavors of quarks: u, d, s, and c. These simulations are performed with a one-loop Symanzik improved gauge action, and the highly improved staggered quark (HISQ) action. We are generating gauge configurations with four values of the lattice spacing ranging from 0.06 fm to 0.15 fm, and three values of the light quark mass, including the value for which the Goldstone pion mass is equal to the physical pion mass. We discuss simulation algorithms, scale setting, taste symmetry breaking, and the autocorrelations of various quantities. We also present results for the topological susceptibility which demonstrate the improvement of the HISQ configurations relative to those generated earlier with the asqtad improved staggered action.

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|Vub|fromB→πℓνdecays and (
Bailey
¹
,
Bazavov
²
,
Bérnard
³

et al. 2015
Phys. Rev. D

168

339

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We present a lattice-QCD calculation of the B → π ν semileptonic form factors and a new determination of the CKM matrix element |V ub |. We use the MILC asqtad 2+1-flavor lattice configurations at four lattice spacings and light-quark masses down to 1/20 of the physical strange-quark mass. We extrapolate the lattice form factors to the continuum using staggered chiral perturbation theory in the hard-pion and SU(2) limits. We employ a model-independent z parameterization to extrapolate our lattice form factors from large-recoil momentum to the full kinematic range. We introduce a new functional method to propagate information from the chiral-continuum extrapolation to the z expansion. We present our results together with a complete systematic error budget, including a covariance matrix to enable the combination of our form factors with other lattice-QCD and experimental results. To obtain |V ub |, we simultaneously fit the experimental data for the B → π ν differential decay rate obtained by the BaBar and Belle collaborations together with our lattice form-factor results. We find |V ub | = (3.72 ± 0.16) × 10 −3 where the error is from the combined fit to lattice plus experiments and includes all sources of uncertainty. Our form-factor results bring the QCD error on |V ub | to the same level as the experimental error. We also provide results for the B → π ν vector and scalar form factors obtained from the combined lattice and experiment fit, which are more precisely-determined than from our lattice-QCD calculation alone. These results can be used in other phenomenological applications and to test other approaches to QCD.

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B(s)0-mixing matrix elements from lattice QCD for the Standard Model and beyond

et al. 2016

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We calculate-for the first time in three-flavor lattice QCD-the hadronic matrix elements of all five local operators that contribute to neutral B 0 -and B s -meson mixing in and beyond the Standard Model. We present a complete error budget for each matrix element and also provide the full set of correlations among the matrix elements. We also present the corresponding bag parameters and their correlations, as well as specific combinations of the mixing matrix elements that enter the expression for the neutral B-meson width difference. We obtain the most precise determination to date of the SU(3)-breaking ratio ξ = 1.206(18)(6), where the second error stems from the omission of charm sea quarks, while the first encompasses all other uncertainties. The threefold reduction in total uncertainty, relative to the 2013 Flavor Lattice Averaging Group results, tightens the constraint from B mixing on the Cabibbo-Kobayashi-Maskawa (CKM) unitarity triangle. Our calculation employs gauge-field ensembles generated by the MILC Collaboration with four lattice spacings and pion masses close to the physical value. We use the asqtad-improved staggered action for the light valence quarks, and the Fermilab method for the bottom quark. We use heavy-light meson chiral perturbation theory modified to include lattice-spacing effects to extrapolate the five matrix elements to the physical point. We combine our results with experimental measurements of the neutral B-meson oscillation frequencies to determine the CKM matrix elements |V td | = 8.00(34)(8) × 10 −3 , |V ts | = 39.0(1.2)(0.4) × 10 −3 , and |V td /V ts | = 0.2052(31)(10), which differ from CKM-unitarity expectations by about 2σ. These results and others from flavor-changing-neutral currents point towards an emerging tension between weak processes that are mediated at the loop and tree levels.

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R. Zhou

B→Dℓνform factors at nonzero recoil and|Vcb|
Bailey
¹
,
Bazavov
²
,
Bérnard
³

et al. 2015
Phys. Rev. D
287
25
362
5
View full text Add to dashboard Cite

Lattice QCD ensembles with four flavors of highly improved staggered quarks

|Vub|fromB→πℓνdecays and (
Bailey
¹
,
Bazavov
²
,
Bérnard
³

et al. 2015
Phys. Rev. D

B(s)0-mixing matrix elements from lattice QCD for the Standard Model and beyond

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R. Zhou

B→Dℓνform factors at nonzero recoil and|Vcb|Bailey1, Bazavov2, Bérnard3 et al. 2015Phys. Rev. D287253625View full textAdd to dashboardCite

Lattice QCD ensembles with four flavors of highly improved staggered quarks

|Vub|fromB→πℓνdecays and (Bailey1, Bazavov2, Bérnard3 et al. 2015Phys. Rev. D

B(s)0-mixing matrix elements from lattice QCD for the Standard Model and beyond

Contact Info

Product

Resources

About

B→Dℓνform factors at nonzero recoil and|Vcb|
Bailey
¹
,
Bazavov
²
,
Bérnard
³

et al. 2015
Phys. Rev. D
287
25
362
5
View full text Add to dashboard Cite

|Vub|fromB→πℓνdecays and (
Bailey
¹
,
Bazavov
²
,
Bérnard
³

et al. 2015
Phys. Rev. D