Nuclear energy release from fragmentation

Abstract

Nuclear energy released by splitting Uranium and Thorium isotopes into two, three, four, up to eight fragments with nearly equal size are studied. We found that the energy released come from equally splitting the 235,238U and 230,232Th nuclei into to three fragments is largest. The statistical multifragmentation model is employed to calculate the probability of different breakup channels for the excited nuclei. Weighing the the probability distributions of fragments multiplicity at different excitation energies for the 238U nucleus, we found that an excitation energy between 1.2 and 2 MeV/u is optimal for the 235U, 238U, 230Th and 232Th nuclei to release nuclear energy of about 0.7-0.75 MeV/u.