8Dim calculations of the third barrier in 232Th and a conflict between theory and experiment on uranium nuclei

Abstract

We find the height of the third fission barrier BIII and energy of the third minimum EIII in 232Th using the macroscopic - microscopic model, very well tested in this region of nuclei. For the first time it is done on an 8-dimensional deformation hypercube. The dipole distortion is included among the shape variables to assure that no important shapes are missed. The saddle point is found on a lattice containing more than 50 million points by the immersion water flow (IWF) method. The shallow third minimum, BIII-EIII≈ 0.36 MeV, agrees with experimetal data of Blons et al. This is in a sharp contrast with the status of the IIIrd minima in 232-236U: their experimental depth of ≥3 MeV contradicts all realistic theoretical predictions. We emphasize the importance of repeating the experiment on 232Th, by a technique similar to that used in the uranium nuclei, for settling the puzzle of the third minima in actinides.