Physics – High Energy Physics – High Energy Physics - Lattice
Scientific paper
2011-11-21
Physics
High Energy Physics
High Energy Physics - Lattice
7 pages, XXIX International Symposium on Lattice Field Theory, July 10 -16 2011, Squaw Valley, Lake Tahoe, California
Scientific paper
The \Delta I = 3/2 K to pi pi decay amplitude is calculated on RBC/UKQCD 32^3 times 64, L_s=32 dynamical lattices with 2+1 flavours of domain wall fermions using the Dislocation Suppressing Determinant Ratio and Iwasaki gauge action. The calculation is performed close to the physical pion mass (m_pi = 142.9(1.1) MeV and with a single lattice spacing (a^-1= 1.375(9) GeV.) We find Re(A_2) = (1.436 \pm 0.063_{stat} \pm 0.258_{syst}) times 10^-8 GeV and Im(A_2) = (-6.29 \pm 0.46_{stat} \pm 1.20_{syst})\times 10^{-13} GeV. These results are combined with the experimental result for epsilon'/epsilon to predict Im(A_0) = -5.32(64)_{stat}(71)_{syst}\times 10^{-11} GeV within the Standard Model. We also perform a reweighting analysis to investigate the effects of partial quenching in the light-quark sector of our calculation. Following reweighting we find Re(A_2) = (1.52\pm 0.14_{stat}) \times 10^-8 GeV and Im(A_2) = (-6.47 \pm 0.55_{stat})\times 10^-13 GeV, which are consistent with our main results.
Goode Elaine
Lightman Matthew
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