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Chiral corrections to the isovector double scattering term for the pion-deuteron scattering length

arXiv:nucl-th/0203001 · doi:10.1103/PhysRevC.65.057001

Abstract

The empirical value of the real part of the pion-deuteron scattering length can be well understood in terms of the dominant isovector $πN$-double scattering contribution. We calculate in chiral perturbation theory all one-pion loop corrections to this double scattering term which in the case of $πN$-scattering close the gap between the current-algebra prediction and the empirical value of the isovector threshold T-matrix $T_{πN}^-$. In addition to closing this gap there is in the $πd$-system a loop-induced off-shell correction for the exchanged virtual pion. Its coordinate space representation reveals that it is equivalent to $2π$-exchange in the deuteron. We evaluate the chirally corrected double scattering term and the off-shell contribution with various realistic deuteron wave functions. We find that the off-shell correction contributes at most -8% and that the isovector double scattering term explains at least 90% of the empirical value of the real part of the $πd$-scattering length.

4 pages, 2 figures, to be published in The Physical Review C