Practical methods for a direct calculation of $ΔI=1/2$ $K$ to $ππ$ Decay

Details Practical methods for a direct calculation of $ΔI=1/2$ $K$ to $ππ$ Decay Practical methods for a direct calculation of $ΔI=1/2$ $K$ to $ππ$ Decay

2011-10-10

arxiv.org/abs/1110.2143v2

Physics

High Energy Physics

High Energy Physics - Lattice

7 pages, 5 figures, proceedings for the XXIX International Symposium on Lattice Field Theory

Scientific paper

A direct calculation of the complex $\Delta I=1/2$ kaon decay amplitude is notoriously difficult because of the presence of disconnected graphs. Here we describe and demonstrate two practical methods to defeat this problem: the EigCG algorithm and the use of time-separated $\pi-\pi$ sources. With a fine tuned EigCG implementation for domain wall fermions, the calculation of light quark propagators is accelerated by a factor of 5-10 on a variety of lattices from small ($16^3\times32\times16$) to large ($32^3\times64\times32$). In addition, a substantial reduction in noise is achieved by separating each of the sources for the two pions in the time direction by 2-5 lattice spacings. These methods are combined in a calculation of $K$ to $\pi\pi$ threshold decay using a $24^3\times64\times16$ volume and 329 MeV pions. These methods result in non-zero signals for both Re($A_0$) and Im($A_0$) from 138 gauge configurations.

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