Measurement of γ rays from the giant resonances excited by 12C(p,p') reaction at 392 MeV and 0^

Abstract

We measured both the differential cross section (σp,p =d2σ/d dEx) and the γ-ray emission probability (Rγ(Ex) =σp,pγ/σp,p) from the giant resonances excited by 12C(p,p) reaction at 392 MeV and 0, using a magnetic spectrometer and an array of NaI(Tl) counters. The absolute value of Rγ(Ex) was calibrated by using the well-known γ-ray emission probability from 12C* ( 15.11 MeV, 1+, T=1) and 16O* ( 6.9 MeV, 2+, T=0) states within 5\% uncertainty. We found that Rγ(Ex) starts from zero at Ex=16 MeV, increases to a maximum of 53.30.43.9\% at Ex=27 MeV and then decreases. We also compared the measured values of Rγ(Ex) with statistical model calculation based on the Hauser-Feshbach formalism in the energy region Ex= 16-32 MeV and discussed the features of γ-ray emission probability quantitatively.