3,442 research outputs found
The Decay Amplitude from Lattice QCD
We report on the first realistic \emph{ab initio} calculation of a hadronic
weak decay, that of the amplitude for a kaon to decay into two \pi-mesons
with isospin 2. We find Re in good agreement with the
experimental result and for the hitherto unknown imaginary part we find
{Im}. Moreover combining our result for
Im\, with experimental values of Re\,, Re\, and
, we obtain the following value for the unknown ratio
Im\,/Re\, within the Standard Model:
.
One consequence of these results is that the contribution from Im\, to the
direct CP violation parameter (the so-called Electroweak
Penguin, EWP, contribution) is Re. We
explain why this calculation of represents a major milestone for lattice
QCD and discuss the exciting prospects for a full quantitative understanding of
CP-violation in kaon decays.Comment: 5 pages, 1 figur
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A mixed Finite Element formulation for incompressibility using linear displacement and pressure interpolations
In this work shall be presented a stabilized finite element method to deal with incompressibility
in solid mechanics. A mixed formulation involving pressure and displacement fields
is used and a continuous linear interpolation is considered for both fields. To overcome
the Ladyzhenskaya-Babuska-Brezzi condition, a stabilization technique based on the orthogonal
sub-grid scale method is introduced. The main advantage of the method is the
possibility of using linear triangular finite elements, which are easy to generate for real
industrial applications. Results are compared with several improved formulations, as the
enhanced assumed strain method (EAS) and the Q1P0-formulation, in nearly incompressible
problems and in the context of linear elasticity and J2-plasticity
Lattice determination of the Decay Amplitude
We describe the computation of the amplitude A_2 for a kaon to decay into two
pions with isospin I=2. The results presented in the letter Phys.Rev.Lett. 108
(2012) 141601 from an analysis of 63 gluon configurations are updated to 146
configurations giving Re GeV and Im
GeV. Re is in good agreement with the experimental result, whereas the
value of Im was hitherto unknown. We are also working towards a direct
computation of the amplitude but, within the
standard model, our result for Im can be combined with the experimental
results for Re, Re and to give
ImRe . Our result for Im\, implies
that the electroweak penguin (EWP) contribution to
is Re.Comment: 59 pages, 11 figure
QCDOC: A 10-teraflops scale computer for lattice QCD
The architecture of a new class of computers, optimized for lattice QCD
calculations, is described. An individual node is based on a single integrated
circuit containing a PowerPC 32-bit integer processor with a 1 Gflops 64-bit
IEEE floating point unit, 4 Mbyte of memory, 8 Gbit/sec nearest-neighbor
communications and additional control and diagnostic circuitry. The machine's
name, QCDOC, derives from ``QCD On a Chip''.Comment: Lattice 2000 (machines) 8 pages, 4 figure
Standard-model prediction for direct CP violation in decay
We report the first lattice QCD calculation of the complex kaon decay
amplitude with physical kinematics, using a lattice
volume and a single lattice spacing , with GeV. We find
Re GeV and Im GeV, where the first error is statistical
and the second systematic. The first value is in approximate agreement with the
experimental result: Re GeV while the second
can be used to compute the direct CP violating ratio
Re, which is
below the experimental value . The real
part of is CP conserving and serves as a test of our method while the
result for Re provides a new test of the
standard-model theory of CP violation, one which can be made more accurate with
increasing computer capability.Comment: 9 pages, 3 figures. Updated to match published versio
The kaon semileptonic form factor in Nf=2+1 domain wall lattice QCD with physical light quark masses
We present the first calculation of the kaon semileptonic form factor with
sea and valence quark masses tuned to their physical values in the continuum
limit of 2+1 flavour domain wall lattice QCD. We analyse a comprehensive set of
simulations at the phenomenologically convenient point of zero momentum
transfer in large physical volumes and for two different values of the lattice
spacing. Our prediction for the form factor is f+(0)=0.9685(34)(14) where the
first error is statistical and the second error systematic. This result can be
combined with experimental measurements of K->pi decays for a determination of
the CKM-matrix element for which we predict |Vus|=0.2233(5)(9) where the first
error is from experiment and the second error from the lattice computation.Comment: 21 pages, 7 figures, 6 table
Curvas de dessorção e calor latente de vaporização para as sementes de milho pipoca (Zea mays).
O objetivo deste trabalho foi determinar as curvas de umidade de equilibrio higroscopico e o calor latente de vaporizacao para as sementes de milho pipoca (Zea mays). O teor de umidade inicial das sementes era 23% b.u. As sementes foram submetidas e dessorcao, sob diversas condicoes de temperatura (20, 30, 40 e 50oC) e umidade relativa do ar (30, 40, 50, 60, 70, 80 e 90%) com tres repeticoes, ate atingirem a umidade de equilibrio. A temperatura e a umidade relativa do ar foram controladas por meio de uma unidade condicionadora de ar "Aminco-Air". Os seguintes modelos matematicos foram ajustados aos dados experimentais. Henderson, Henderson modificado, Chang-Pfost, Copace e Sigma-Copace; as constantes dessas equacoes foram por regressao, enquanto o calor latente de vaporizacao foi calculado utilizando-se a equacao de Henderson modificada, estimando-se uma equacao empirica para calcular o calor latente de vaporizacao para o milho pipoca, em funcao da temperatura e do teor de umidade do grao. De acordo com os resultados obtidos concluiu-se que as equacoes de Copace e Sigma-Copace foram as que melhor se ajustaram aos dados experimentais, em todas as faixas estudadas de temperatura e umidade relativa do ar, podendo ser utilizadas para se calcular a umidade de equilibrio das sementes de milho pipoca. A equacao empirica determinada para calcular o calor latente de vaporizacao da agua dos graos do milho pipoca mostrou-se adequada
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