Precision spectroscopy of pionic 1s states of Sn nuclei and evidence for partial restoration of chiral symmetry in the nuclear medium
arXiv:nucl-ex/0211023 · doi:10.1103/PhysRevLett.92.072302
Abstract
Deeply bound 1s states of $Ï^-$ in $^{115,119,123}$Sn were preferentially observed using the Sn($d$,$^3$He) pion-transfer reaction under the recoil-free condition. The 1s binding energies and widths were precisely determined, and were used to deduce the isovector parameter of the s-wave pion-nucleus potential to be $b_1 =-0.115\pm 0.007 ~m_Ï^{-1}$. The observed enhancement of $|b_1|$ over the free $ÏN$ value ($b_1^{\rm free}/b_1 = 0.78 \pm 0.05$) indicates a reduction of the chiral order parameter, $f^{*}_Ï (Ï)^2/f_Ï^2 \approx 0.64$, at the normal nuclear density, $Ï= Ï_0$.
4 pages including 3 postscript figures, RevTeX 4 with multirow.sty, submitted to Physical Review Letters