We have calculated the fission barrier height for 16O+208Pb, 16O+209Bi, 16O+232Th, 16O+238U and 16O+248Cm systems in energy range between 90 MeV to 215 MeV. This method is based on the experimental data for angular anisotropies of fission fragments. In present work, we have used the transition state model (STM) for two different cases: the first case is without neutron emission correction and the second case is with neutron emission correction. In this paper, we have predicted the fission barrier for the two super heavy nuclei that were not reported previously with experimental methods.
Soheyli,S. and Alizadeh,F. (2019). Prediction of fission barrier height for induced fission reactions with 16O at several energies. Iranian Journal of Physics Research, 9(2), 177-183.
MLA
Soheyli,S. , and Alizadeh,F. . "Prediction of fission barrier height for induced fission reactions with 16O at several energies", Iranian Journal of Physics Research, 9, 2, 2019, 177-183.
HARVARD
Soheyli S., Alizadeh F. (2019). 'Prediction of fission barrier height for induced fission reactions with 16O at several energies', Iranian Journal of Physics Research, 9(2), pp. 177-183.
CHICAGO
S. Soheyli and F. Alizadeh, "Prediction of fission barrier height for induced fission reactions with 16O at several energies," Iranian Journal of Physics Research, 9 2 (2019): 177-183,
VANCOUVER
Soheyli S., Alizadeh F. Prediction of fission barrier height for induced fission reactions with 16O at several energies. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 9(2): 177-183.
