Extraction of the non-spin- and spin-transfer isovector responses via the 12C(10Be,10B+γ)12B reaction

Abstract

The isovector response in 12B was investigated via the 12C(10Be,10B+γ)12B reaction at 100 A \, MeV. By utilizing the γ-decay properties of the 1.74 MeV 0+ and 0.718 MeV 1+ states in 10B, the separate extraction of the non-spin-transfer ( S=0) and spin-transfer ( S=1) isovector responses up to an excitation energy of 50 MeV in 12B in a single measurement is demonstrated. The experimental setup employed the S800 spectrometer to detect and analyze the 10B ejectiles and the Gamma-Ray Energy Tracking In-beam Nuclear Array (GRETINA) for obtaining the Doppler-reconstructed spectrum for γ-rays emitted in-flight by 10B. A 12C foil was placed at the pivot point of the spectrograph. The 12B reaction product was not detected. Contributions from transitions associated with the transfer of different units of angular momentum in the non-spin- and spin-transfer responses were analyzed using a multipole decomposition analysis. The extracted non-spin-dipole ( S=0, L=1) and spin-dipole ( S=1, L=1) responses were found to be consistent with available data from other charge-exchange probes, validating the non-spin- and spin-transfer filters used. While statistical uncertainties and experimental resolutions were relatively large due to the modest intensity of the 10Be secondary beam, the results show that, with the much higher intensities that will be available at new rare-isotope beam facilities, the (10Be,10B+γ) reaction and its Tz=-1 partner, the (10C,10B+γ) reaction, are powerful tools for elucidating the isovector non-spin- and spin-transfer responses in nuclei.