143 research outputs found

    Light quark masses from quenched lattice QCD simulations with domain wall quarks

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    Values for the strange quark mass and average up/down mass have been obtained from quenched lattice QCD simulations using the domain wall fermion action. This discretization preserves the properties of flavor and chiral symmetry at nonzero lattice spacing. Results are shown for two values of the lattice spacing. The mass renormalization constant is computed nonperturbatively.Comment: To appear in the proceedings of DPF 2000, Columbus, OH, USA. Work done as part of the RIKEN/BNL/Columbia Collaboration. (3 pages

    Light hadronic physics using domain wall fermions in quenched lattice QCD

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    In the past year domain wall fermion simulations have moved from exploratory stages to the point where systematic effects can be studied with different gauge couplings, volumes, and lengths in the fifth dimension. Results are presented here for the chiral condensate, the light hadron spectrum, and the strange quark mass. We focus especially on the pseudoscalar meson mass and show that, in small volume, the correlators used to compute it can be contaminated to different degrees by topological zero modes. In large volume a nonlinear extrapolation to the chiral limit, e.g. as expected from quenched chiral perturbation theory, is needed in order to have a consistent picture of low energy chiral symmetry breaking effects.Comment: To appear in the proceedings of Lattice 2000 (spectrum), Bangalore, India. Work done as part of the RIKEN/BNL/Columbia Collaboration. (4 pages) - Reference adde

    Exploring Lattice Methods for Cold Fermionic Atoms

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    There has been a surge of experimental effort recently in cooling trapped fermionic atoms to quantum degeneracy. By varying an external magnetic field, interactions between atoms can be made arbitrarily strong. When the S wave scattering length becomes comparable to and larger than the interparticle spacing, standard mean field analysis breaks down. In this case the system exhibits a type of universality, and J-W. Chen and D. B. Kaplan recently showed how this system can be studied from first principles using lattice field theory. This poster presents the first results of exploratory simulations. The existence of a continuum limit is checked and the pairing condensate is studied as a function of the external source strength over a range of temperatures. Preliminary results show simulations can locate the critical temperature.Comment: Poster presented at Lattice2004(non-zero), Fermilab, 21-26 June 2004. 3 page

    Lattice QCD calculation of the B(s)→D(s)∗ℓν{{B}_{(s)}\to D_{(s)}^{*}\ell{\nu}} form factors at zero recoil and implications for ∣Vcb∣{|V_{cb}|}

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    We present results of a lattice QCD calculation of B→D∗B\to D^* and Bs→Ds∗B_s\to D_s^* axial vector matrix elements with both states at rest. These zero recoil matrix elements provide the normalization necessary to infer a value for the CKM matrix element ∣Vcb∣|V_{cb}| from experimental measurements of Bˉ0→D∗+ℓ−νˉ\bar{B}^0\to D^{*+}\ell^-\bar{\nu} and Bˉs0→Ds∗+ℓ−νˉ\bar{B}^0_s\to D_s^{*+}\ell^-\bar{\nu} decay. Results are derived from correlation functions computed with highly improved staggered quarks (HISQ) for light, strange, and charm quark propagators, and nonrelativistic QCD for the bottom quark propagator. The calculation of correlation functions employs MILC Collaboration ensembles over a range of three lattice spacings. These gauge field configurations include sea quark effects of charm, strange, and equal-mass up and down quarks. We use ensembles with physically light up and down quarks, as well as heavier values. Our main results are FB→D∗(1)=0.895±0.010stat±0.024sys\mathcal{F}^{B\to D^*}(1)= 0.895\pm 0.010_{\mathrm{stat}}\pm{{0.024}_{\mathrm{sys}}} and FBs→Ds∗(1)=0.883±0.010stat±0.028sys\mathcal{F}^{B_s\to D_s^*}(1)= 0.883\pm 0.010_{\mathrm{stat}}\pm{0.028_{\mathrm{sys}}}. We discuss the consequences for ∣Vcb∣|V_{cb}| in light of recent investigations into the extrapolation of experimental data to zero recoil.Comment: 23 pages. v3: Typos corrected. v2: Improved treatment of finite volume effects. Small change to some results (but smaller than the quoted uncertainties). Version accepted for publication in Phys. Rev.

    Lattice QCD Calculations with b Quarks: Status and Prospects

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    This talk gives an overview of how lattice QCD calculations are influencing quark flavor physics. The first part of the talk focuses on the climb to higher precision; the second part surveys views along less-trodden paths.Comment: 8 pages. Invited talk at the 13th International Conference on B-Physics at Hadron Machines (BEAUTY 2011), 4-8 April 2011, Amsterdam, The Netherlands, to appear as PoS(BEAUTY 2011)057. Version 2: updated discussion of UTfit Collaboration's LQCD input
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