Parity-transfer (16 O,16 F(0-, g.s.)) reaction as a selective probe of isovector 0- states in nuclei

Abstract

We demonstrate that the parity-transfer (16 O,16 F(0-, g.s.)) reaction provides a selective probe of isovector 0- excitations in nuclei. This reaction selectively populates unnatural-parity states through a 0+ 0- transition in the projectile. The excitation-energy spectrum of 12B was reconstructed via the 12 C(16 O,16 F(0-, g.s.)) reaction at 247~MeV/u from the coincident detection of the 15O+p decay products of 16F. The known 0- state at Ex = 9.3~ MeV was clearly observed with a strongly enhanced forward cross section, establishing the selectivity of the reaction. Structures observed at Ex = 6.6 0.4 and 14.8 0.3~ MeV exhibit forward-peaked angular distributions and are suggested to contain significant 0- strength. These results demonstrate that the parity-transfer reaction provides a powerful probe of 0- excitations and highlight its potential for systematic studies of spin-isospin modes, including pion-related dynamics, in nuclei.