These are processes which create compound nuclei at low excitation energy (~ 10-20 MeV, hence " cold "), leading to a higher probability of survival from fission.
These are processes which create compound nuclei at high excitation energy (~ 40-50 MeV, hence " hot "), leading to a reduced probability of survival from fission and quasi-fission.
These are processes which create compound nuclei at low excitation energy (~ 10-20 MeV, hence " cold "), leading to a higher probability of survival from fission.
These are processes which create compound nuclei at high excitation energy (~ 40-50 MeV, hence " hot "), leading to a reduced probability of survival from fission and quasi-fission.
These are processes which create compound nuclei at low excitation energy (~ 10 – 20 MeV, hence " cold "), leading to a higher probability of survival from fission.
These are processes which create compound nuclei at high excitation energy (~ 40 – 50 MeV, hence " hot "), leading to a reduced probability of survival from fission.
0.007 seconds.