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Bπ Excited State Contamination in B Meson Observables Obtained from Lattice QCD

Bπ Excited State Contamination in B Meson Observables Obtained from Lattice QCD
Author: Alexander Broll
Publisher:
Total Pages: 0
Release: 2023*
Genre:
ISBN:
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Englische Version: Lattice simulations of Quantum Chromodynamics allow for a fully non-perturbative computation of hadronic correlation functions, but for a reliable extraction of physical quantities such as particle energies and matrix elements the contribution of excited states needs to be under control. In this thesis, an effective field theory known as Heavy Meson Chiral Perturbation Theory (HM ChPT) is used to analytically compute the dominant excited states contamination of B meson correlators which are relevant for the extraction of CKM matrix elements. First, the analogues of the quark bilinears which are used as interpolating fields in lattice simulations are derived in HM ChPT. These depend on a set of low energy constants (LECs) which are known for local fields. On the other hand, smeared interpolating fields can be incorporated in the effective theory by changing the values of these LECs, a fact that will be used throughout this thesis for investigating the effect of smearing. The interpolating fields are used to compute the B meson two-point function from which the B meson mass and decay constant as well as the respective excited states contamination can be extracted. From suitably chosen ratios of three-point functions and two-point functions, the HM ChPT LEC g, the form factors of semileptonic B meson decay, and the matrix elements of neutral B meson oscillations were determined. The computed excited states contamination of these ratios usually leads to an overestimation of the order of a few percent, depending on the values chosen for the LECs. Some results depend on so far unknown LECs, for which suitable correlation functions for a lattice determination are presented. In contrast, the excited states contamination of one of the semileptonic form factors is an order of magnitude larger and negative.

B Meson Semileptonic Form Factors Using Unquenched Lattice QCD

B Meson Semileptonic Form Factors Using Unquenched Lattice QCD
Author: Emel Gulez
Publisher:
Total Pages: 116
Release: 2006
Genre: B mesons
ISBN:
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Abstract: We present state-of-the-art unquenched lattice QCD results for B meson semileptonic decay, B [rightarrow] [pi]lv, form factors. We use gauge configurations prepared by the MILC collaboration, which include the effects of the sea quarks, the s quark and two very light quarks (u and d). We employ the nonrelativistic NRQCD action to simulate the heavy b quark and a highly improved staggered quark action (AsqTad) to simulate the sea and valence light quarks. To reduce the uncertainties, we perform matching of the heavy-light current with these highly improved actions through one loop. The perturbative matching accounts for the effects of mixing with dimension 4 operators that are O(1/M) and O(a). We extrapolate the form factors f+(q2) and f0(q2) to their values at the physical pion mass using chiral perturbation theory formulas. Integrating this result, we obtain [integral] [from] 16 GeV2 [to] q2_max [d[gamma]/dq2]d2 (V_ub)2 = 1.46(35) ps−1. Combining this with a preliminary average by the Heavy Flavor Averaging Group (HFAG'05) of recent branching fraction data for exclusive B semileptonic decays from the BaBar, Belle and CLEO collaborations, leads to V_ub = 4.22(30)(51) x 10−3.

B-meson Mass and Decay Constant from Lattice QCD

B-meson Mass and Decay Constant from Lattice QCD
Author: Philippe Boucaud
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Total Pages: 0
Release: 1988
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ISBN:
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We present the results of the first computation on large lattices of the B-meson binding energy and decay constant following the method proposed by Eichten. The results obtained at ß = 6 on a 20*102*40 lattice and at ß = 6.2 on a 163*48 lattice show that it is necessary to have a statistical sample which is much larger than in similar computations with light mesons in order to obtain results of comparable precision.

B-meson Decay Constants from 2+1-flavor Lattice QCD with Domain-wall Light Quarks and Relativistic Heavy Quarks

B-meson Decay Constants from 2+1-flavor Lattice QCD with Domain-wall Light Quarks and Relativistic Heavy Quarks
Author:
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Total Pages: 24
Release: 2015
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We calculate the B-meson decay constants fB, fBs, and their ratio in unquenched lattice QCD using domain-wall light quarks and relativistic b-quarks. We use gauge-field ensembles generated by the RBC and UKQCD collaborations using the domain-wall fermion action and Iwasaki gauge action with three flavors of light dynamical quarks. We analyze data at two lattice spacings of a ≈ 0.11, 0.086 fm with unitary pion masses as light as M[pi] ≈ 290 MeV; this enables us to control the extrapolation to the physical light-quark masses and continuum. For the b-quarks we use the anisotropic clover action with the relativistic heavy-quark interpretation, such that discretization errors from the heavy-quark action are of the same size as from the light-quark sector. We renormalize the lattice heavy-light axial-vector current using a mostly nonperturbative method in which we compute the bulk of the matching factor nonperturbatively, with a small correction, that is close to unity, in lattice perturbation theory. We also improve the lattice heavy-light current through O([alpha]sa). We extrapolate our results to the physical light-quark masses and continuum using SU(2) heavy-meson chiral perturbation theory, and provide a complete systematic error budget. We obtain fB0 = 196.2(15.7) MeV, fB+ = 195.4(15.8) MeV, fBs = 235.4(12.2) MeV, fBs/fB0 = 1.193(59), and fBs/fB+ = 1.220(82), where the errors are statistical and total systematic added in quadrature. In addition, these results are in good agreement with other published results and provide an important independent cross check of other three-flavor determinations of B-meson decay constants using staggered light quarks.

Particle Physics Reference Library

Particle Physics Reference Library
Author: Herwig Schopper
Publisher: Springer Nature
Total Pages: 632
Release: 2020
Genre: Heavy ions
ISBN: 3030382079
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This first open access volume of the handbook series contains articles on the standard model of particle physics, both from the theoretical and experimental perspective. It also covers related topics, such as heavy-ion physics, neutrino physics and searches for new physics beyond the standard model. A joint CERN-Springer initiative, the "Particle Physics Reference Library" provides revised and updated contributions based on previously published material in the well-known Landolt-Boernstein series on particle physics, accelerators and detectors (volumes 21A, B1,B2,C), which took stock of the field approximately one decade ago. Central to this new initiative is publication under full open access