Multi-probe study of excited states in 12C: disentangling the sources of monopole strength between the Hoyle state and Ex = 13 MeV

Abstract

Knowledge of the low-lying monopole strength in 12C, the Hoyle state in particular, is crucial for our understanding of both the astrophysically important 3α reaction and of α-particle clustering. The 12C(α, α)12C and 14C(p, t)12C reactions were employed to populate states in 12C. A self-consistent, simultaneous analysis of the inclusive spectra with lineshapes was performed, which accounted for distortion due to nuclear dynamics and experimental effects. Clear evidence was found for excess monopole strength at Ex 9 MeV, particularly in the 12C(α, α)12C reaction at 0. This additional strength cannot be reproduced by the previously established monopole states between Ex = 7 and 13 MeV. An additional 0+ state at Ex 9 MeV yielded a significantly improved fit of the data and is the leading candidate for the predicted breathing-mode excitation of the Hoyle state. Alternatively, the results may suggest that a more sophisticated, physically motivated parameterization of the astrophysically important monopole strengths in 12C is required.