Author:
Dhuri Sangeeta,Mahata K.,Shrivastava A.,Ramachandran K.,Pandit S. K.,Kumar Vineet,Parkar V. V.,Rout P. C.,Kumar A.,Chavan Arati,Kaur Satbir,Santhosh T.
Abstract
Abstract
The fission fragment mass and total kinetic energy (TKE) distributions were studied for 187Ir populated using 12C + 175Lu reaction at excitation energies 24.8, 23.3, 20.8, and 16.7 MeV above the saddle point. Fission fragments (FF) were detected using position sensitive MWPC’s kept at a folding angle. The mass of the fragment was calculated using Time-of-Flight (TOF) difference method. The multi Gaussian fit to the extracted mass distributions shows the presence of narrower microscopic components corresponding to Z = 38 and 45 in addition to the liquid drop component at lower excitation energies. The GEF model predicts significant asymmetric components at all the measured energies. The TKE distribution investigations suggest the dominance of macroscopic liquid drop components at all energies.
Subject
Computer Science Applications,History,Education