Quantification of spin alignment in fission by simultaneous treatment of and conversion electron angular distributions

The study of the angular momentum properties of fission fragments can shed light on the complex mechanisms that characterize the fission process. One quantity that is of significant interest, and has not yet been studied adequately, is the alignment of the fragments, which is the cause of anisotropy of the gamma rays along the fission axis and has been observed in various past and recent experiments. In this work, we have performed calculations using the FIFRELIN code, in an attempt to quantify the alignment of the nuclear spins after neutron emission. Under the statistical tensor formalism of angular distributions, the conversion electron and gamma -ray angular distributions can be treated simultaneously in an event -by -event calculation. This enables a first prediction of the conversion electron angular distribution with respect to the fission axis. An average value for the alignment of fission fragments is deduced for 252Cf, with the use of recent experimental data. The method used for the present work can serve as a starting point for future theoretical and experimental studies in terms of gamma and conversion electron spectroscopy in view of studying the spin alignment of individual fission fragments, which could further improve our understanding on the process of fission.