Triton binding energy with realistic precision
Abstract
We compute the binding energy of triton with realistic statistical errors stemming from NN scattering data uncertainties and the deuteron and obtain Et=-7.638(15) \, MeV. Setting the numerical precision as Et num 1 \, keV we obtain the statistical error Et stat= 15(1) \, keV which is mainly determined by the channels involving relative S-waves. This figure reflects the uncertainty of the input NN data, more than two orders of magnitude larger than the experimental precision Et exp= 0.1 \, keV and provides a bottleneck in the realistic precision that can be reached. This suggests an important reduction in the numerical precision and hence in the computational effort.
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