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Lattice Calculations of Nucleon Electromagnetic Form Factors at Large Momentum Transfer

In this work, we report a novel technique in lattice QCD for studying the high momentum-transfer region of nucleon form factors. These calculations could give important theoretical input to experiments, such as those of JLab's 12-GeV program and studies of nucleon deformation. There is an extensive history of form-factor calculations on the lattice, primarily with ground states for both the initial and final state. However, determining form factors at large momentum transfer ($Q^2$) has been difficult due to large statistical and systematic errors in this regime. We study the nucleon form factors using three pion masses with both quenched and 2+1-flavor anisotropic lattice configurations with $Q^2$ as large as $6 GeV^2$. These form factors are further processed to obtain transverse charge and magnetization densities across 2-dimensional impact-parameter space. Our approach can be applied to isotropic lattices and lattices with smaller lattice spacing to calculate even larger-$Q^2$ form factors.

preprint2010arXivOpen access
Huey-Wen LinSaul D. CohenRobert G. EdwardsKostas OrginosDavid G. Richards
hep-lat
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Huey-Wen LinSaul D. CohenRobert G. EdwardsKostas OrginosDavid G. Richards

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